Volume 1, Issue 1 Premier Issue Perioperative Myocardial Infarction: A Silent Killer P. J. Devereaux Improving End-of-Life Care in Clinical Teaching Units Publications Agreement Number 40025049 | 1911-1606 Chris Frank Physical Principles of Chest Auscultation Margot R. Roach www.csimonline.com CONTENTS Volume 1, Issue 1 EDITOR-IN-CHIEF Dr. Hector Baillie EDITORIAL BOARD Dr. Benjamin Chen Dr. Don Echenberg Dr. Bert Govig Dr. Louise Pilote Dr. Suzanne Morin Dr. Patrick Bergin C S I M S TA F F Message from the President 6 Editorial: What’s in a Name? 8 Original Articles Ms. Domenica Utano Ms. Deborah O’Neil PRODUCTION EDITOR/COPY EDITOR Susan Harrison Perioperative Myocardial Infarction: A Silent Killer 9 P. J. Devereaux, MD, PhD; Justin de Beer, MD; Juan Carlos Villar, MD, PhD; Denis Xavier, MD; ART DIRECTOR Akbar Panju, MB; Otavio Berwanger, MD, PhD; Germán Málaga, MD; Luc Lanther, MD, MSc; Binda Fraser Jørn Wetterslev, MD, PhD PROOFREADER Scott Bryant ADVERTISING John Birkby (905) 628-4309 [email protected] C I R C U L AT I O N C O O R D I N AT O R Brenda Robinson [email protected] Evidence-Based Clinical Practice Guidelines for the Management of Obesity 15 David C. W. Lau, MD, PhD, FRCPC Hypertriglyceridemia and Pregnancy: Preventing Pancreatitis by Using Plasmapheresis 18 Marie-Hélène Bastien, MD; Evelyne Rey, MD, MSc, FRCPC ACCOUNTING Susan McClung Physical Principles of Chest Auscultation GROUP PUBLISHER John D. Birkby Subscription Rates 19 Margot R. Roach, MD 1 year Libraries and hospitals $60.00 Individuals $34.00 Single copy $13.00 Canadian subscribers add 6% GST International and US subscribers remit in US dollars Canadian Journal of General Internal Medicine is published four times a year by Andrew John Publishing Inc., with offices located at 115 King Street West, Suite 220, Dundas, ON L9H 1V1. We welcome editorial submissions but cannot assume responsibility or commitment for unsolicited material.Any editorial material, including photographs that are accepted from an unsolicited contributor, will become the property of Andrew John Publishing Inc. The publisher shall not be liable for any of the views expressed by the authors of articles or letters published in Canadian Journal of General Internal Medicine, nor shall these opinions necessarily reflect those of the publisher. ••••• Every effort has been made to ensure that the information provided herein is accurate and in accord with standards accepted at the time of printing. However, readers are advised to check the most current product information provided by the manufacturer of each drug to verify the recommended dose, the method and duration of administration, and contraindications. It is the responsibility of the licensed prescriber to determine the dosages and best treatment for each patient. Neither the publisher nor the editor assumes any liability for any injury and/or damage to persons or property arising from this publication. “GIM” Goes Global: The First International Symposium in General Internal Medicine—Toronto, April 2007 21 William A. Ghali, MD, MPH; Jacques Cornuz, MD, MPH; Donald Echenberg, MD Improving End-of-Life Care in Clinical Teaching Units: The Associated Medical Services, Inc., Fellowship in End-of-Life Care 22 Chris Frank, MD, CCFP, FCFP; Deb Pichora, RN, MSc; Cori Schroder, MD, CCFP, FCFP; Phil Wattam, MD, FRCPC; Daren Heyland, MD, FRCPC, MSc Journal Review Sodium Intake and Mortality in the NHANES II Follow-up Study 24 Norm Campbell, MD, FRCPC; Bert Govig, MD, FRCPC CSIM News Award Winners 28 Welcome to New Members 30 A Profile of the Canadian Society of Internal Medicine 31 CSIM Annual Scientific Meeting Program 33 Speakers 37 Sponsors 37 Canadian Journal of General Internal Medicine Volume 1, Issue 1, 2006 3 CSIM Members of Council 2006 Table des matières Dr. Donald Echenberg President/Québec Region Representative Sherbrooke, QC [email protected] Dr. Mahesh K. Raju Past-President/Eastern Region Representative Saint John, NB [email protected] Dr. Bert Govig Québec Region Representative, Treasurer and Vice-President, Membership Affairs Amos, QC [email protected] Dr. Hector Baillie Secretary and Western Region Representative Nanaimo, BC [email protected] Dr. Neil Gibson Western Region Representative St. Albert, AB [email protected] Dr. Malcolm Wilson Ontario Representative/Executive Member Huntsville, ON [email protected] Dr. Grant Macfarlane Ontario Representative Collingwood, ON [email protected] Dr. Jim Nishikawa Ontario Representative Ottawa, ON [email protected] Dr. Benjamin Chen Ontario Representative Kingston, ON [email protected] Dr. Suzanne Morin Québec Representative Montreal, QC [email protected] Message du Président 7 Éditorial : Le nom, est-ce important? 8 Articles Originaux Infarctus du myocarde péri-opératoire : un tueur silencieux 12 P. J. Devereaux, MD, PhD; Justin de Beer, MD; Juan Carlos Villar, MD, PhD; Denis Xavier, MD; Akbar Panju, MB; Otavio Berwanger, MD, PhD; Germán Málaga, MD; Luc Lanther, MD, MSc; Jørn Wetterslev, MD, PhD Lignes directrices factuelles de pratique clinique pour le traitement de l’obésité 15 David C. W. Lau, MD, PhD, FRCPC Hypertriglycéridémie et grossesse : prévention de pancréatite par plasmaphérèses 17 Marie-Hélène Bastien, MD; Evelyne Rey, MD, MSc, FRCPC Principes physiques de l’auscultation du thorax 19 Margot R. Roach, MD La médecine interne générale et la globalisation : Première conférence internationale sur la médecine interne générale – Toronto, avril 2007 21 William A. Ghali, MD, MPH; Jacques Cornuz, MD, MPH; Donald Echenberg, MD Améliorer les soins de fin de vie dans les unités d’enseignement clinique : Bourse de l’Associated Medical Services, Inc. 22 Chris Frank, MD, CCFP, FCFP; Deb Pichora, RN, MSc; Cori Schroder, MD, CCFP, FCFP; Phil Wattam, MD, FRCPC; Daren Heyland, MD, FRCPC, MSc Dr. John Robb Québec Representative Sherbrooke, QC [email protected] Dr. Patrick Bergin Eastern Region Representative/ Executive Member Charlottetown, PEI [email protected] Dr. Louise Pilote Chair, Research/Awards Committee Montréal, QC [email protected] Dr. Sharon Card Vice-President, Education Saskatoon, SK [email protected] En Bref 26 Apport sodique et mortalité dans l’étude de suivi NHANES II Norm Campbell, MD, FRCPC; Bert Govig, MD, FRCPC Nouvelles de la SCMI Récipiendaires Bienvenue aux nouveaux membres Un profil de la Société canadienne de médecine interne 28 30 32 Dr. Neil Maharaj Resident Representative Ottawa, ON [email protected] Dr. Barry O. Kassen Western Region Representative Vancouver, BC [email protected] Programme de la réunion scientifique annuelle de la SCMI Conférenciers Commanditaires Canadian Journal of General Internal Medicine Volume 1, Issue 1, 2006 33 37 37 5 Message from the President What a year! The CSIM has accomplished so much: the Care-Fully document, the application for GIM as a distinct discipline, Health Promotion, CPD, and the transformation of our journal into the Canadian Journal of General Internal Medicine (CJGIM), to name a few. We’re moving so fast. Sometimes I feel breathless just trying to keep up. e have expanded our journal’s editorial board, and learned some of the ins and outs of medical publishing. At the same time, we have noted major upheavals on the Canadian journal landscape. It seems timely to review these events and learn from them. In February of this year, the Canadian Medical Association Journal (CMAJ) surprised us all by dismissing their editor in chief, Dr. John Hoey, and his deputy, Anne Marie Todkill, both with over ten years’ experience. At that time the CMAJ, with 70,000 subscribers, was ranked as the fifth-leading general medical journal in the world. Receiving more than 100 original research papers per month, it could afford to be highly selective in publishing the most important of these. The CMAJ became full-text and free online in 1999, and online readers have outnumbered print readers by more than six to one. Its impact extends well beyond the Canadian borders: only a third of its readership live in Canada. Trouble had been brewing at the CMAJ for some time. In 2001 the journal published an editorial supporting the medical use of marijuana. This was followed by an editorial concerning doctors in Shawinigan, Quebec, whose ER department closed six minutes before the arrival of a patient with an acute MI. The patient died on the way to the nearest open ER. On re-reading the original editorial and ensuing correspondence, we learn that there may have been some misinterpretation W 6 Volume 1, Issue 1, 2006 of Dr. Hoey’s meaning, amplified by a French translation in which the phrase “broken trust” (“confiance rompue”) was translated as “betrayed trust” (“confiance trahie”). The straw that broke the camel’s back was an article that appeared in December 2005, dealing with the newly approved emergency contraceptive pill. A dispute with the publishers led to the dismissal of the editors, citing “irreconcilable differences.” The controversy provoked much discussion over important societal issues such as the role of pharmacists in the health care system; their duty to obtain sufficient patient information before dispensing certain OTC medications; patients’ right to privacy and confidentiality; the difference between scientific research and investigative reporting; and the role of editorial independence. Eight senior and intermediate editors along with sixteen of the nineteen members of the journal’s editorial board subsequently resigned in protest. Some scientific editors agreed to stay on and help to stabilize and maintain the CMAJ. The CSIM has a particular interest in these events. Dr. Hoey is a respected internist, epidemiologist, and public health physician. In fact, he was one of my professors way back in the 1970s at the “Vic” in Montreal. Much ink has been spilled on the fate of this journal, and several important issues have been debated in the Lancet, New England Journal of Medicine, and the CMAJ itself.“How can one determine if a dispute is about editorial independence? Is editorial independence limited to original research or should it include commentary, editorials and news coverage?” Several months later, things are looking much brighter for the CMA. They have accepted all twenty-five recommendations of the Pound Report on governance. These recommendations include the transfer of CMAJ from CMA Holdings Inc (a for-profit subsidiary) back to the CMA; strengthening of the Journal Oversight Committee; and allowing the editor-in-chief full control of content, regardless of the topic. What has this taught us? We have learned of the importance of editorial independence. We have learned of the importance of carefully selecting the correct phrase to avoid misunderstanding. And we have learned of the importance of precise translation. Dr. Hoey is developing an online medical journal to appear in the next few months titled Open Medicine (www.openmedicine.ca). In addition, he has also graciously agreed to provide editorial advice for the CJGIM. We aim to inform, and to provide a forum for, our own readership, which extends beyond our membership to many of the 2,400 medical specialists in Canada who practise GIM. CSIM turns an exciting page with the first issue of CJGIM. Wish us luck! Donald Echenberg Canadian Journal of General Internal Medicine Message du Président Quelle année ! La Société canadienne de médecine interne a accompli tellement de choses : le document Care-Fully, la requête pour que la médecine interne générale soit reconnue comme une discipline distincte, la promotion de la santé, CPD, et la transformation de notre revue en Canadian Journal of General Internal Medicine (CJGIM), pour n’en nommer que quelques-unes. Tout va si vite que parfois je me sens essoufflé à vouloir garder la cadence. ous avons élargi notre comité de rédaction et avons également acquis des connaissances en édition médicale. En même temps, nous avons observé les bouleversements survenus dans l’édition au Canada. Il semble opportun de revoir ces événements et d’en tirer une leçon. En février dernier, le Canadian Medical Association Journal (CMAJ) nous a causé une surprise en renvoyant son rédacteur en chef, le Dr John Hoey, et son adjointe Anne Marie Todkill, les deux ayant plus de dix ans d’expérience. À ce moment-là, le CMAJ, avec ses 70 000 abonnés, occupait le cinquième rang parmi les revues médicales à travers le monde. Le CMAJ pouvait se permettre d’être très sélectif et de publier les articles de recherche les plus importants car il en recevait plus de 100 par mois. Le CMAJ a été publié en texte intégral et offert en ligne en 1999, et les lecteurs en ligne avaient dépassé le nombre des lecteurs de la copie papier de plus de six contre un. Les répercussions ont été ressenties bien au-delà des frontières canadiennes; seulement un tiers des abonnés vit au Canada. Les problèmes au CMAJ existaient depuis quelque temps. En 2001, la revue a publié un éditorial qui favorisait l’emploi médical de la marijuana. Puis il a été rapporté dans un éditorial que des médecins à Shawinigan, Québec, avaient fermé le service d’urgence six minutes avant l’arrivée d’un patient souffrant d’un infarctus du myocarde aigu. Le patient est décédé lors du transport à un autre service d’urgence. À la relecture de l’éditorial original et de la correspondance qui s’ensuivit, nous avons constaté qu’il y avait peut-être eu une fausse interprétation de la signification du N message du Dr Hoey, interprétation amplifiée par une traduction en français de “broken trust” (“confiance rompue”) par “betrayed trust” (“confiance trahie”). Un article paru en décembre 2005 a été la goutte qui fit déborder le vase. Il était question dans cet article de la nouvelle pilule contraceptive du lendemain qui venait d’être approuvée. Un différend avec les éditeurs a provoqué la démission des rédacteurs en raison d’incompatibilité. La controverse a provoqué beaucoup de discussion sur des sujets à caractère social tels que le rôle des pharmaciens dans le système des soins de santé; leur rôle dans l’obtention de renseignements suffisants sur le patient avant de vendre certains médicaments grand public; le droit des patients à la confidentialité et à la vie privée; la différence entre la recherche scientifique et le journalisme d’enquête; et le rôle de l’indépendance du journalisme. Huit rédacteurs senior et intermédiaires, ainsi que seize des dix-neuf membres du comité de rédaction de la revue ont démissionné en guise de protestation. Certains rédacteurs scientifiques ont accepté de continuer avec la revue et d’aider à stabiliser et maintenir le CMAJ. La Société canadienne de médecine interne était tout particulièrement intéressée à ces événements. Le Dr Hoey est un interniste, épidémiologiste et médecin de santé publique respecté. En fait, il était un de mes professeurs en 1970 au “Vic” à Montréal. Beaucoup d’encre a coulé au sujet du devenir de cette revue et plusieurs questions ont été soulevées dans le Lancet, le New England Journal of Medicine, et le CMAJ. Comment déterminer si un conflit est au sujet de Canadian Journal of General Internal Medicine l’indépendance du journalisme? Est-ce que l’indépendance du journalisme est limitée à une recherche nouvelle ou doit-elle inclure un commentaire, un éditorial et la couverture de l’actualité? Plusieurs mois plus tard, la situation semble s’être rétablie au CMA. Ils ont accepté les vingt-cinq recommandations du Pound Report sur la gouvernance. Ces recommandations consistent à transférer le CMAJ de CMA Holdings Inc. (une filiale à but lucratif) au CMA; à consolider le Comité de surveillance de la revue; à permettre au rédacteur en chef d’avoir le plein contrôle du contenu, quel que soit le sujet. Qu’avons-nous appris? Nous avons appris l’importance de l’indépendance du journalisme. Nous avons appris l’importance de bien choisir la phrase exacte pour éviter une mauvaise interprétation et nous avons également appris l’importance d’une traduction fidèle. Le Dr Hoey est en train de mettre au point une revue médicale en ligne qui paraîtra au cours des prochains mois et qui s’intitule Open Medicine (www.openmedicine.ca). De plus, il a accepté avec plaisir de donner des conseils à la rédaction du CJGIM. Notre but est d’informer et de fournir un forum à notre propre lectorat qui va au-delà des 2400 spécialistes médicaux au Canada qui pratiquent la médecine interne générale. La Société canadienne de médecine interne tourne une page importante avec l’arrivée du premier numéro du CJGIM. Souhaitez-nous bonne chance! Donald Echenberg Volume 1, Issue 1, 2006 7 Editorial What’s in a Name? Le nom, est-ce important? any of you will ask, “Do I need a new journal? I already get several, and another will not be read.” I have good news for you—this is still The General Internist, but with a new name. Don’t worry; no extra trees will be felled to produce it. We now have a publisher, to the relief of our secretariat. The serendipitous task of funding each issue is now more organized and less demanding. Canadian Journal of General Internal Medicine (CJGIM) will have the hallmarks of a professional journal and a distribution of thousands. Its new name emphasizes the fact that this is a Canadian journal, for the Canadian internist, with a Canadian focus. It aims to address common issues, answer common questions, and provide a forum for discussion and a platform for debate. In other words, it seeks to give our readers what our profession desperately needs—better communication. Communication between internists in varied practices across the country; between residents and career opportunities; between health care planners and specialists in the field; between the Royal College and the CSIM. It also has the potential to showcase GIM across Canada. Departments of Medicine and individuals in the trenches can tell us what they do, what works, and what doesn’t. What’s new in teaching methods? Fellows and residents and students can put pen to paper, and see their work in print. Whether it be case reports, journal reviews, original research, or commentary, now there is a place to read it. GIM faces challenging times, as numbers falter and recruitment proves tough. We need to explain to students and residents what it is we do and why we love doing it. We need to define our role in Canadian medicine, as a premier specialty in our own right, and move forward with conviction. Community and university specialists will have to form new partnerships, in education and research. And you’ll read about it in CJGIM. Justification indeed for a new name. We welcome your opinions, your ideas, and your involvement. Write to us. We are your journal. M Hector M. Baillie lusieurs d’entre vous se demanderont «Avons-nous besoin d’une autre revue? J’en déjà reçois plusieurs et je n’aurai pas le temps d’en lire une autre.» J’ai de bonnes nouvelles pour vous – il s’agit toujours de la revue The General Internist, mais sous un nouveau nom. Ne vous faites pas trop de souci, on ne coupera pas plus d’arbres pour la produire. Nous avons maintenant un éditeur, au grand bonheur de notre secrétariat. L’agréable tâche du financement de chaque numéro est maintenant plus organisée et moins exigeante. Le Canadian Journal of General Internal Medicine (CJGIM) possèdera tous les attraits d’une revue professionnelle et sera distribuée à des milliers de personnes. Son nouveau nom vient souligner qu’il s’agit d’une revue canadienne, pour les internistes au Canada. Elle traite des enjeux courants, permet de répondre aux questions et fournit un forum pour la discussion et une plateforme pour le débat. En d’autres mots, elle permet d’offrir aux lecteurs ce que la profession recherche avidement — une meilleure communication, c’est-à-dire la communication entre les internistes de diverses pratiques au Canada; entre les résidents et les empleurs; entre les planificateurs des soins de santé et les spécialistes du domaine; entre le Collège royal et la Société canadienne de médecine interne. Elle a également la possibilité de présenter la médecine interne générale partout au Canada. Les départements de médecine et les membres actifs peuvent nous dire ce qu’ils font, ce qui fonctionne et ce qui ne fonctionne pas, nous parler des nouveautés en méthodes d’enseignement. Les résidents et ceux qui font de la recherche et les étudiants peuvent publier leur travail. Qu’il s’agisse de rapports de cas, d’analyse de revues, de recherche nouvelle ou de commentaires, il est possible de les lire. La médecine interne générale fait face à une période particulièrement difficile, à mesure que le nombre décline et que le recrutement s’avère difficile. Nous devons expliquer aux étudiants et aux résidents ce que nous faisons et pourquoi nous aimons ce que nous faisons. Nous devons définir notre rôle en médecine au Canada, en tant que spécialité, et continuer notre cheminement avec conviction. Les spécialistes communautaires et universitaires devront former de nouveaux partenariats en éducation et en recherche. Vous pourrez lire à ce sujet dans le CJGIM. Vraiment, c’est une raison d’adopter un nouveau nom. Nous apprécions votre opinion, vos idées et votre engagement. Écrivez-nous. Nous sommes votre revue. P Hector M. Baillie 8 Volume 1, Issue 1, 2006 Canadian Journal of General Internal Medicine Perioperative Myocardial Infarction: A Silent Killer P. J. Devereaux, MD, PhD; Justin de Beer, MD; Juan Carlos Villar, MD, PhD; Denis Xavier, MD; Akbar Panju, MB; Otavio Berwanger, MD, PhD; Germán Málaga, MD; Luc Lanther, MD, MSc; Jørn Wetterslev, MD, PhD ABSTRACT In this article, we discuss perioperative myocardial infarction in patients undergoing noncardiac surgery. Despite the limitations of previous research, the evidence suggests that a substantial number of patients undergoing noncardiac surgery suffer a myocardial infarction. Frequently, perioperative myocardial infarctions are clinically silent but nonetheless important events altering patient prognosis for death and further major cardiac events. Interventions may improve both the short- and long-term prognoses of patients suffering a perioperative myocardial infarction. To avoid missing perioperative myocardial infarctions, physicians should consider surveillance measures. Although large high-quality studies are needed, in the interim, physicians should consider monitoring troponins daily during the first 3 days after noncardiac surgery in patients with or at high risk of atherosclerotic disease. What Is the Frequency of Myocardial Infarction in Patients Undergoing Noncardiac Surgery? pproximately 100 million adults worldwide undergo major noncardiac surgery requiring hospital admission annually.1 Despite the procedural benefits, observational studies evaluating noncardiac surgery patients with or at risk of coronary artery disease2–7 suggest that 3% of these patients suffer a perioperative myocardial infarction (MI).8 Research evaluating unselected patients (i.e., not limited to patients with or at risk of coronary artery disease) suggests that 1% of adults undergoing noncardiac surgery suffer an MI.9 Therefore, many patients suffer a perioperative MI annually. Further, the magnitude of this problem is likely even greater than these event rates suggest because (1) most of the studies that these estimates are based upon excluded urgent/emergent surgical cases, which have a higher risk for perioperative MI7; (2) the studies used creatine kinase MB (CK-MB) in their diagnostic criteria for MI, a criterion prone to false-negative values for perioperative MI10,11; and (3) the studies are based on data that are over one decade old, and during the past 10 years surgical practice has shifted toward more elderly patients with more advanced cardiac disease undergoing noncardiac surgery.8 A Is There a Risk of a Perioperative MI Going Undetected? Physicians rarely recommend monitoring perioperative cardiac enzymes or biomarkers to detect MI in patients undergoing noncardiac surgery.12 Given this, there is a risk that perioperative MIs may go undetected for several reasons. First, research suggests that 85% of patients suffering a perioperative MI will not experience chest discomfort,4–6 likely because the majority of perioperative MIs occur during the first few days after surgery, when most patients are receiving analgesic medications.13 Second, studies suggest that about 50% of patients suffering a perioperative MI will not experience any signs (e.g., tachycardia, hypotension) or symptoms (e.g., chest discomfort, shortness of breath, nausea) of an MI.13 Third, even when patients do experience potential signs or symptoms (other than chest discomfort) of perioperative MI, surgeons may not consider MI because there are a number of more probable diagnoses (e.g., hypovolemia, bleeding, medication side effect, atelectasis, pneumonia). Do Perioperative MIs Matter? Although further research is needed, it is probable that a substantial proportion of perioperative MIs are missed because they are clinically silent or associated with nonspecific signs or symptoms. This is a problem to the extent that a perioperative MI negatively alters patient prognosis. A recent systematic review identified six observational studies requiring patients to have at least one troponin measurement after noncardiac surgery,13 and all studies demonstrated that an elevated P. J. Devereaux, MD, PhD: Departments of Clinical Epidemiology and Biostatistics and Medicine, McMaster University, Hamilton, Ontario; Justin de Beer, MD: Department of Surgery, McMaster University, Hamilton, Ontario; Juan Carlos Villar, MD, PhD: Grupo de Cardiología Preventiva, Universidad Autonoma de Bucaramanga, Bucaramanga, Colombia; Denis Xavier, MD: Department of Pharmacology, St. John’s Medical College, Bangalore, India, and the Population Health Research Institute, McMaster University, Hamilton, Ontario; Akbar Panju, MB: Department of Medicine, McMaster University, Hamilton, Ontario; Otavio Berwanger, MD, PhD: Department of Clinical Epidemiology, Federal University of Rio Grande do Sul, Porto Alegre-RS, Brazil; Germán Málaga, MD: Department of Medicine, Universidad Peruana Cayetano Heredia, Lima, Peru; Luc Lanther, MD, MSc: Department of Medicine, University of Sherbrooke, Sherbrooke, Québec; Jørn Wetterslev, MD, PhD: Copenhagen Trial Unit, Centre for Clinical Intervention Research, Copenhagen University Hospital, Copenhagen, Denmark Address for correspondence: P. J. Devereaux, MD, PhD, 9 Hilton Street, Hamilton, ON L8P 3K3; E-mail: [email protected] Conflict of interest: None declared Can J Gen Intern Med 2006;1:9-11 Canadian Journal of General Internal Medicine Volume 1, Issue 1, 2006 9 Perioperative Myocardial Infarction: A Silent Killer troponin after noncardiac surgery was a statistically significant independent predictor of death and major cardiac events in the 6 to 48 months after surgery.14–19 Further, this association was present in the two studies that excluded patients who had both an elevated troponin and clinical signs or symptoms of an MI.18,19 These studies suggest that perioperative troponin elevation, even without clinical signs or symptoms of MI, negatively altered patient prognosis. Although these studies have limitations (e.g., the studies were underpowered and demonstrated markedly varied associations) and a definitive large cohort study is needed, the evidence available suggests it is not prudent to assume that clinically silent perioperative MIs are benign events. If Clinically Silent Perioperative MIs Were Detected, Could Physicians Improve Patient Outcomes? Although a plethora of large randomized controlled trials (RCTs) have established a multitude of acute and long-term beneficial therapies to treat nonoperative MIs, there are no RCTs evaluating interventions to manage patients suffering a perioperative MI. Therefore, it remains unproven that physicians detecting perioperative MIs can improve patient outcomes, but we strongly suspect they can. Studies suggest that between 15 and 20% of patients suffering a perioperative MI die prior to hospital discharge,3,6 and it is intuitive that early detection of an MI will afford physicians the greatest opportunity to prevent death. We believe a host of strategies for managing perioperative MIs are more likely to benefit than harm patients. These include (1) more frequent monitoring of vital signs to allow early detection and reversal of cardiovascular instability before it becomes irreversible; (2) management in an intermediate or cardiac care unit; (3) identifying and correcting potential contributing factors (e.g., hypoxia, anemia); (4) avoidance of heart failure through optimal intravascular volume management; and (5) a few therapies known to benefit patients suffering a nonoperative MI (i.e., β-blocker, angiotensin-converting enzyme [ACE] inhibitor). We believe that even patients who would survive to hospital discharge, despite having suffered an undetected perioperative MI, can benefit from detection of their MI. Approximately 10% of patients who suffer a perioperative MI with or without signs or symptoms will suffer a major cardiac event within 1 year of hospital discharge after surgery.6,18,20 Given that the majority of these patients have some degree of underlying coronary artery stenosis,21–23 it would seem prudent to offer these patients long-term management with known beneficial secondary prophylaxis cardiac interventions (e.g., aspirin, ACE inhibitor, statin therapy) until definitive RCTs on perioperative MI are conducted. What Can Physicians Perioperative MIs? Do to Avoid Missing A potential solution to avoid missing clinically silent MIs is for physicians to monitor perioperative troponin levels. The fact that the majority of perioperative MIs occur during the first few postoperative days suggests that monitoring troponins daily for the first 3 days after surgery will provide the greatest yield. Although there is uncertainty regarding whom to monitor, a reasonable approach is to monitor the patients at highest risk of a perioperative MI (i.e., patients with known 10 Volume 1, Issue 1, 2006 atherosclerotic disease or risk factors). Summary Despite the limitations of previous research, the evidence suggests that many patients undergoing noncardiac surgery suffer a perioperative MI, a substantial proportion of perioperative MIs are clinically silent, perioperative MIs are important events altering patient prognosis for death and further major cardiac events, and interventions may improve both the short- and long-term prognoses of patients suffering a perioperative MI. Firm recommendations await the results of large high-quality studies. Until such time, physicians should consider monitoring troponins daily during the first 3 days after noncardiac surgery. Acknowledgements P. J. Devereaux is supported by a Canadian Institutes of Health Research New Investigator Award. Denis Xavier is supported by a Canadian Institutes of Health Research HOPE Scholarship Award. References 1. Mangano D. Peri-operative cardiovascular morbidity: new developments. Ballieres Clin Anaesthesiol 1999;13:335-48. 2. Detsky AS, Abrams HB, McLaughlin JR, et al. Predicting cardiac complications in patients undergoing non-cardiac surgery. J Gen Intern Med 1986;1:211-9. 3. Shah KB, Kleinman BS, Rao TL, et al. Angina and other risk factors in patients with cardiac diseases undergoing noncardiac operations. Anesth Analg 1990;70:240-7. 4. Mangano DT, Browner WS, Hollenberg M, et al. Association of perioperative myocardial ischemia with cardiac morbidity and mortality in men undergoing noncardiac surgery. The Study of Perioperative Ischemia Research Group. N Engl J Med 1990;323:1781-8. 5. Ashton CM, Petersen NJ, Wray NP, et al. The incidence of perioperative myocardial infarction in men undergoing noncardiac surgery. Ann Intern Med 1993;118:504-10. 6. Badner NH, Knill RL, Brown JE, et al. Myocardial infarction after noncardiac surgery. Anesthesiology 1998;88:572-8. 7. Kumar R, McKinney WP, Raj G, et al. Adverse cardiac events after surgery: assessing risk in a veteran population. J Gen Intern Med 2001;16:507-18. 8. Devereaux PJ, Goldman L, Cook DJ, et al. Perioperative cardiac events in patients undergoing noncardiac surgery: a review of the magnitude of the problem, the pathophysiology of the events and methods to estimate and communicate risk. CMAJ 2005;173:627-34. 9. Lee TH, Marcantonio ER, Mangione CM, et al. Derivation and prospective validation of a simple index for prediction of cardiac risk of major noncardiac surgery. Circulation 1999;100:1043-9. 10. Adams JE III, Sicard GA, Allen BT, et al. Diagnosis of perioperative myocardial infarction with measurement of cardiac troponin I. N Engl J Med 1994;330:670-4. 11. Haggart PC, Adam DJ, Ludman PF, Bradbury AW. Comparison of cardiac troponin I and creatine kinase ratios in the detection of myocardial injury after aortic surgery. Br J Surg 2001;88:1196-200. 12. Devereaux PJ, Ghali WA, Gibson NE, et al. Physicians’ recommendations for patients who undergo noncardiac surgery. Clin Invest Med 2000;23:116-23. 13. Devereaux PJ, Goldman L, Yusuf S, et al. Surveillance and prevention Canadian Journal of General Internal Medicine Devereaux et al. 14. 15. 16. 17. 18. of major perioperative ischemic cardiac events in patients undergoing noncardiac surgery: a review. CMAJ 2005;173:779-88. Kim LJ, Martinez EA, Faraday N, et al. Cardiac troponin I predicts short-term mortality in vascular surgery patients. Circulation 2002;106:2366-71. Landesberg G, Shatz V, Akopnik I, et al. Association of cardiac troponin, CK-MB, and postoperative myocardial ischemia with long-term survival after major vascular surgery. J Am Coll Cardiol 2003;42:1547-54. Filipovic M, Jeger R, Probst C, et al. Heart rate variability and cardiac troponin I are incremental and independent predictors of one-year all-cause mortality after major noncardiac surgery in patients at risk of coronary artery disease. J Am Coll Cardiol 2003;42:1767-76. Oscarsson A, Eintrei C, Anskar S, et al. Troponin T-values provide long-term prognosis in elderly patients undergoing non-cardiac surgery. Acta Anaesthesiol Scand 2004;48:1071-9. Lopez-Jimenez F, Goldman L, Sacks DB, et al. Prognostic value of Canadian Journal of General Internal Medicine 19. 20. 21. 22. 23. cardiac troponin T after noncardiac surgery: 6-month follow-up data. J Am Coll Cardiol 1997;29:1241-5. Kertai MD, Boersma E, Klein J, et al. Long-term prognostic value of asymptomatic cardiac troponin T elevations in patients after major vascular surgery. Eur J Vasc Endovasc Surg 2004;28(1):59-66. Mangano DT, Browner WS, Hollenberg M, et al. Long-term cardiac prognosis following noncardiac surgery. The Study of Perioperative Ischemia Research Group. JAMA 1992;268:233-9. Dawood MM, Gutpa DK, Southern J, et al. Pathology of fatal perioperative myocardial infarction: implications regarding pathophysiology and prevention. Int J Cardiol 1996;57(1):37-44. Cohen MC, Aretz TH. Histological analysis of coronary artery lesions in fatal postoperative myocardial infarction. Cardiovasc Pathol 1999;8:133-9. Ellis SG, Hertzer NR, Young JR, Brener S. Angiographic correlates of cardiac death and myocardial infarction complicating major nonthoracic vascular surgery. Am J Cardiol 1996;77:1126-8. Volume 1, Issue 1, 2006 11 Infarctus du myocarde péri-opératoire : un tueur silencieux P. J. Devereaux, MD, PhD; Justin de Beer, MD; Juan Carlos Villar, MD, PhD; Denis Xavier, MD; Akbar Panju, MB; Otavio Berwanger, MD, PhD; Germán Málaga, MD; Luc Lanther, MD, MSc; Jørn Wetterslev, MD, PhD SOMMAIRE Dans cet article, nous discutons de l’infarctus du myocarde péri-opératoire chez les patients qui doivent subir une chirurgie non cardiaque. Même si la recherche antérieure est limitée, des preuves laissent supposer qu’un assez bon nombre de patients qui doivent subir une chirurgie non cardiaque font un infarctus du myocarde. Souvent, l’infarctus du myocarde périopératoire est asymptomatique d’un point de vue clinique, mais néanmoins, un événement important venant modifier le pronostic de survie et la possibilité d’autres événements cardiaques majeurs. Les interventions peuvent améliorer à la fois le pronostic à court et à long terme des patients qui font un infarctus du myocarde péri-opératoire. Les médecins devraient envisager des mesures pour surveiller les patients et déceler les infarctus du myocarde péri-opératoires. Bien qu’il soit nécessaire de mener des études d’envergure et d’excellente qualité, en attendant, les médecins devraient surveiller les taux de troponine chaque jour pendant les trois premiers jours après une chirurgie non cardiaque chez les patients qui sont atteints d’athérosclérose ou qui courent un risque élevé d’en être atteint. Quelle est la fréquence de l’infarctus du myocarde chez les patients devant subir une chirurgie non cardiaque? nviron 100 millions d’adultes de par le monde subissent une chirurgie majeure non cardiaque nécessitant l’hospitalisation chaque année.1 Malgré les avantages procéduraux, les études par observation évaluant les patients ayant subi une chirurgie non cardiaque ayant une coronaropathie ou susceptibles d’avoir une coronaropathie2–7 ont révélé que 3 % de ces patients souffraient d’un infarctus du myocarde (IM) périopératoire.8 Des recherches évaluant les patients non choisis (c’est-à-dire non limité aux patients ayant une coronaropathie ou susceptibles d’avoir une coronaropathie) indiquent que 1 % des adultes qui subissent une chirurgie non cardiaque ont un IM.9 Par conséquent, plusieurs patients souffrent d’un IM péri-opératoire chaque année. De plus, l’ampleur de ce problème est probablement plus importante que ces taux laissent entrevoir parce que (1) la plupart des études sur lesquelles ces estimations sont basées excluaient les cas d’opération urgente/nouvelle qui avaient un risque plus élevé d’IM péri-opératoire7; (2) les études ont utilisé la créatine-kinase-MB (CK-MB) dans leurs critères diagnostiques pour l’IM, un critère pouvant donner des résultats faux négatifs pour l’IM péri-opératoire10,11; et (3) les études sont basées sur des données vieilles de 10 ans, et au cours des 10 dernières années la pratique de la chirurgie s’est concentrée sur les patients plus E âgés souffrant de cardiopathie plus avancée et subissant une chirurgie non cardiaque.8 Existe-t-il un risque que l’IM péri-opératoire ne soit pas détecté? Les médecins recommandent rarement de surveiller les enzymes ou biomarqueurs cardiaques péri-opératoires pour détecter un IM chez les patients qui doivent subir une chirurgie non cardiaque.12 Compte tenu de ces faits, il existe un risque que l’IM péri-opératoire ne soit pas détecté pour plusieurs raisons. Premièrement, la recherche révèle que 85 % des patients qui font un IM péri-opératoire ne ressentiront pas de malaises thoraciques,4–6 probablement parce que la majorité des IM péri-opératoires surviennent au cours des premiers jours suivant la chirurgie lorsque la plupart des patients reçoivent des analgésiques.13 Deuxièmement, des études indiquent qu’environ 50 % des patients qui font un IM périopératoire n’auront aucun signe (tachycardie, hypotension) ni aucun symptôme (malaises thoraciques, essoufflement, nausée) de l’IM.13 Troisièmement, même lorsque les patients ont des signes ou des symptômes (autres que les malaises thoraciques) d’IM périopératoire, les chirurgiens peuvent ne pas envisager l’IM car il y a un certain nombre d’autres diagnostics possibles (p. ex., hypovolémie, hémorragie, effet secondaire médicamenteux, atélectasie, pneumonie). P. J. Devereaux, MD, PhD: Départements d’épidémiologie clinique et de biostatistiques, McMaster University, Hamilton, Ontario; Justin de Beer, MD: Département de chirurgie, McMaster University, Hamilton, Ontario; Juan Carlos Villar, MD, PhD: Grupo de Cardiología Preventiva, Universidad Autonoma de Bucaramanga, Bucaramanga, Colombie; Denis Xavier, MD: Département de pharmacologie, St. John’s Medical College, Bangalore, Indes, et le Population Health Research Institute, McMaster University, Hamilton, Ontario; Akbar Panju, MB: Département of médecine, McMaster University, Hamilton, Ontario; Otavio Berwanger, MD, PhD: Département d’épidémiologie clinique, Federal University of Rio Grande do Sul, Porto Alegre-RS, Brésil; Germán Málaga, MD: Département de médecine, Universidad Peruana Cayetano Heredia, Lima, Pérou; Luc Lanther, MD, MSc: Département de médecine, Université de Sherbrooke, Sherbrooke, Québec; Jørn Wetterslev, MD, PhD: Copenhagen Trial Unit, Centre for Clinical Intervention Research, Copenhagen University Hospital, Copenhague, Danemark Adresse pour correspondance : P. J. Devereaux, MD, PhD, 9 Hilton Street, Hamilton, ON L8P 3K3; Courriel : [email protected] Conflit d’intérêt : Aucun déclaré Can J Gen Intern Med 2006;1:12-14 12 Volume 1, Issue 1, 2006 Canadian Journal of General Internal Medicine Devereaux et al. Est-ce que les IM péri-opératoires sont importants? Bien qu’il soit nécessaire de pousser davantage la recherche, il est probable qu’une proportion substantielle d’IM péri-opératoires ne sont pas détectés parce qu’ils sont asymptomatiques ou associés à des signes et symptômes non spécifiques. C’est un problème dans la mesure qu’un IM péri-opératoire affecte négativement le pronostic du patient. Une révision méthodique récente a identifié six études par observation nécessitant que les patients aient au moins une mesure de la troponine après une chirurgie non cardiaque,13 et toutes les études ont démontré qu’un taux élevé de troponine après une chirurgie non cardiaque était un prédicteur indépendant statistiquement significatif de mortalité et d’événements cardiaques majeurs dans les 6 à 48 mois après la chirurgie.14–19 De plus, cette association se retrouvait dans les deux études qui excluaient les patients qui avaient un taux élevé de troponine et des signes ou des symptômes cliniques d’un IM.18,19 Ces études laissent supposer qu’un taux élevé de troponine peri-opératoire, même sans les signes ou symptômes cliniques d’IM, vient affecter négativement le pronostic. Même si ces études comportent certaines limites (p. ex., les études n’étaient pas assez puissantes et ont démontré des associations très variées) et qu’une étude de grandes cohortes soit nécessaire, les preuves disponibles laissent envisager qu’il n’est pas prudent d’assumer que les IM péri-opératoires cliniquement asymptomatiques soient des événements bénins. Si les IM péri-opératoires cliniquement asymptomatiques étaient détectés, est-ce que les médecins pourraient améliorer le devenir du patient? Bien qu’une abondance d’études cliniques d’envergure, contrôlées, à répartition aléatoire aient déterminé une multitude de traitements à court et à long terme pour les IM, il n’existe aucune étude permettant d’évaluer les interventions nécessaires pour la prise en charge des patients subissant un IM péri-opératoire. Par conséquent, il est impossible de prouver que les médecins qui détectent les IM périopératoires peuvent améliorer le devenir du patient, mais nous soupçonnons qu’ils le peuvent. Des études révèlent qu’entre 15 et 20 % des patients subissant un IM peri-opératoire meurent avant le renvoi de l’hôpital3,6 et la détection précoce d’un IM donnera la chance aux médecins de prévenir le décès. Nous croyons qu’un certain nombre de stratégies pour traiter les IM péri-opératoires seront plus avantageuses que le contraire. Ces stratégies sont les suivantes (1) prise des signes vitaux plus fréquente afin de permettre la détection et revirement d’une instabilité cardiovasculaire avant qu’elle ne devienne irréversible; (2) le traitement dans une unité de soins intermédiaires ou cardiaques; (3) l’identification et la rectification des facteurs contributifs (p. ex., hypoxie, anémie) ; (4) l’évitement de l’insuffisance cardiaque par la gestion optimale du volume intravasculaire; et (5) quelques traitements connus comme étant avantageux pour les patients subissant un IM non lié à la chirurgie (c.-à-d., β-bloquant, inhibiteur de l’enzyme de conversion de l’angiotensine). Nous croyons que même les patients qui survivent un IM périopératoire qui n’a pas été détecté lors de l’hospitalisation peuvent bénéficier de la détection de leur IM. Environ 10 % des patients qui Canadian Journal of General Internal Medicine subissent un IM péri-opératoire manifestant ou non des signes ou des symptômes auront un événement cardiaque majeur en moins d’un an après le renvoi de l’hôpital après l’opération.6,18,20 Étant donné que la majorité de ces patients ont un certain degré de sténose sous-jacente des artères coronariennes,21–23 il semblerait prudent de traiter ces patients à long terme par l’entremise d’interventions cardiaques prophylactiques secondaires (p. ex., AAS, inhibiteur de l’ECA, statine) jusqu’à ce que des études contrôlées à répartition aléatoire sur l’IM péri-opératoire soient menées. Que peuvent faire les médecins pour ne pas manquer de diagnostiquer l’IM péri-opératoire? Une solution possible pour ne pas manquer de diagnostiquer les IM cliniquement asymptomatiques est de surveiller les taux de troponine péri-opératoires. Le fait que la majorité des IM péri-opératoires surviennent au cours des quelques jours suivant l’opération laisse entrevoir que la surveillance des troponines chaque jour pendant les 3 premiers jours après la chirurgie donnera les meilleurs résultats. Bien qu’il existe une certaine incertitude quant au malade à surveiller, une approche raisonnable est de surveiller les patients les plus susceptibles de subir un IM peri-opératoire (c.-à-d. les patients ayant une maladie athéroscléreuse ou susceptible d’en avoir une). Résumé Même si la recherche antérieure est limitée, des preuves laissent supposer que plusieurs patients qui doivent subir une chirurgie non cardiaque font un IM péri-opératoire, une assez bonne proportion des IM péri-opératoires sont asymptomatiques d’un point de vue clinique, les IM péri-opératoires sont des événements importants venant modifier le pronostic de survie et la possibilité d’autres événements cardiaques majeurs, et les interventions peuvent améliorer à la fois le pronostic à court et à long terme des patients qui font un IM périopératoire. Des recommandations bien définies attendent les résultats d’études d’envergure de grande qualité. En attendant, les médecins devraient surveiller les taux de troponine chaque jour pendant les trois premiers jours après une chirurgie non cardiaque. Remerciements P. J. Devereaux a reçu la bourse du nouvel investigateur du Canadian Institutes of Health Research. Denis Xavier a reçu la bourse HOPE du Canadian Institutes of Health Research. Références 1. Mangano D. Peri-operative cardiovascular morbidity: new developments. Ballieres Clin Anaesthesiol 1999;13:335-48. 2. Detsky AS, Abrams HB, McLaughlin JR, et al. Predicting cardiac complications in patients undergoing non-cardiac surgery. J Gen Intern Med 1986;1:211-9. 3. Shah KB, Kleinman BS, Rao TL, et al. Angina and other risk factors in patients with cardiac diseases undergoing noncardiac operations. Anesth Analg 1990;70:240-7. 4. Mangano DT, Browner WS, Hollenberg M, et al. Association of perioperative myocardial ischemia with cardiac morbidity and mortality in men undergoing noncardiac surgery. The Study of Perioperative Ischemia Research Group. N Engl J Med 1990;323:1781-8. Volume 1, Issue 1, 2006 13 Infarctus du myocarde péri-opératoire : un tueur silencieux 5. Ashton CM, Petersen NJ, Wray NP, et al. The incidence of perioperative myocardial infarction in men undergoing noncardiac surgery. Ann Intern Med 1993;118:504-10. 6. Badner NH, Knill RL, Brown JE, et al. Myocardial infarction after noncardiac surgery. Anesthesiology 1998;88:572-8. 7. Kumar R, McKinney WP, Raj G, et al. Adverse cardiac events after surgery: assessing risk in a veteran population. J Gen Intern Med 2001;16:507-18. 8. Devereaux PJ, Goldman L, Cook DJ, et al. Perioperative cardiac events in patients undergoing noncardiac surgery: a review of the magnitude of the problem, the pathophysiology of the events and methods to estimate and communicate risk. CMAJ 2005;173:627-34. 9. Lee TH, Marcantonio ER, Mangione CM, et al. Derivation and prospective validation of a simple index for prediction of cardiac risk of major noncardiac surgery. Circulation 1999;100:1043-9. 10. Adams JE III, Sicard GA, Allen BT, et al. Diagnosis of perioperative myocardial infarction with measurement of cardiac troponin I. N Engl J Med 1994;330:670-4. 11. Haggart PC, Adam DJ, Ludman PF, Bradbury AW. Comparison of cardiac troponin I and creatine kinase ratios in the detection of myocardial injury after aortic surgery. Br J Surg 2001;88:1196-200. 12. Devereaux PJ, Ghali WA, Gibson NE, et al. Physicians’ recommendations for patients who undergo noncardiac surgery. Clin Invest Med 2000;23:116-23. 13. Devereaux PJ, Goldman L, Yusuf S, et al. Surveillance and prevention of major perioperative ischemic cardiac events in patients undergoing noncardiac surgery: a review. CMAJ 2005;173:779-88. 14. Kim LJ, Martinez EA, Faraday N, et al. Cardiac troponin I predicts short-term mortality in vascular surgery patients. Circulation 2002;106:2366-71. 14 Volume 1, Issue 1, 2006 15. Landesberg G, Shatz V, Akopnik I, et al. Association of cardiac troponin, CK-MB, and postoperative myocardial ischemia with long-term survival after major vascular surgery. J Am Coll Cardiol 2003;42:1547-54. 16. Filipovic M, Jeger R, Probst C, et al. Heart rate variability and cardiac troponin I are incremental and independent predictors of one-year all-cause mortality after major noncardiac surgery in patients at risk of coronary artery disease. J Am Coll Cardiol 2003;42:1767-76. 17. Oscarsson A, Eintrei C, Anskar S, et al. Troponin T-values provide long-term prognosis in elderly patients undergoing non-cardiac surgery. Acta Anaesthesiol Scand 2004;48:1071-9. 18. Lopez-Jimenez F, Goldman L, Sacks DB, et al. Prognostic value of cardiac troponin T after noncardiac surgery: 6-month follow-up data. J Am Coll Cardiol 1997;29:1241-5. 19. Kertai MD, Boersma E, Klein J, et al. Long-term prognostic value of asymptomatic cardiac troponin T elevations in patients after major vascular surgery. Eur J Vasc Endovasc Surg 2004;28(1):59-66. 20. Mangano DT, Browner WS, Hollenberg M, et al. Long-term cardiac prognosis following noncardiac surgery. The Study of Perioperative Ischemia Research Group. JAMA 1992;268:233-9. 21. Dawood MM, Gutpa DK, Southern J, et al. Pathology of fatal perioperative myocardial infarction: implications regarding pathophysiology and prevention. Int J Cardiol 1996;57(1):37-44. 22. Cohen MC, Aretz TH. Histological analysis of coronary artery lesions in fatal postoperative myocardial infarction. Cardiovasc Pathol 1999;8:133-9. 23. Ellis SG, Hertzer NR, Young JR, Brener S. Angiographic correlates of cardiac death and myocardial infarction complicating major nonthoracic vascular surgery. Am J Cardiol 1996;77:1126-8. Canadian Journal of General Internal Medicine Evidence-Based Clinical Practice Guidelines for the Management of Obesity David C. W. Lau, MD, PhD, FRCPC ABSTRACT The prevalence of childhood and adult obesity continues to increase in Canada. One in four adults have a BMI >30, and our children are becoming increasingly obese too. Associated co-morbidities, particularly diabetes, place a significant burden on personal well-being and health care costs. Obesity Canada, an organisation founded in 1999, plans to tackle the obesity epidemic with practical treatment and prevention guidelines. SOMMAIRE La prévalence de l’obésité chez l’enfant et l’adulte continue d’augmenter au Canada. Un adulte sur quatre a un IMC >30, et nos enfants sont de plus en obèses. Les co-morbidités associées, particulièrement le diabète, représentent un fardeau important pour le bien-être de la personne et les coûts des soins de santé. Obesity Canada, organisme fondé en 1999, a comme but d’aborder l’épidémie d’obésité et de proposer un traitement pratique et des lignes directrices de prévention. he prevalences of overweight and obesity continue to increase in Canada in both children and adults, and in all areas of the country. Data from the 2004 Canadian Community Health Survey indicate that over half of the adult population is overweight (body mass index [BMI] ≥25 kg/m2), while one in four adults is obese (BMI ≥30 kg/m2).1 These numbers highlight a pressing public health problem that shows no signs of improving in the near future. Obesity among Canadian children and adolescents is advancing at an even more rapid pace than that seen in adults. In 2004, one in four Canadian children and adolescents (ages 2 to 17) was overweight. In the past 15 years, the obese rate has dramatically increased from 2 to 10% in boys and from 2 to 9% in girls.2,3 This is of particular concern, given the tendency for obese children to become obese adults. Moreover, obesity-related health problems, notably type 2 diabetes, now occur at a much earlier age and continue to progress into adulthood.4 We can no longer view obesity as a mere cosmetic or body image issue. There is compelling evidence that overweight individuals have an increased risk of developing a variety of health problems, including type 2 diabetes, hypertension, dyslipidemia, coronary heart disease, stroke, osteoarthritis, and certain forms of cancer.4 It has recently been estimated that approximately 1 in 10 premature deaths among Canadian adults 20 to 64 years of age is directly attributable to overweight and obesity. The cost of obesity in Canada has been conservatively estimated to be $2 billion a year, or 2.4% of the total health care expenditures in 1997.5 In addition to impacting personal health, these increased health risks translate into an increased burden on the health care system. The etiology of obesity is complex and multifactorial. Within the context of environmental, social, and genetic factors, at the simplest T David C. W. Lau, MD, PhD, FRCPC: Department of Medicine, Biochemistry and Molecular Biology, Julia McFarlane Diabetes Research Centre, University of Calgary, Calgary, Alberta Address for correspondence: David C. W. Lau, MD, PhD, FRCPC, Room 2521, Julia McFarlane Diabetes Research Centre, Health Sciences Centre, 3330 Hospital Drive NW, Calgary, AB T2N 4N1; E-mail: [email protected] Conflict of interest: None declared Can J Gen Intern Med 2006;1:15-16 Canadian Journal of General Internal Medicine level, obesity results from long-term positive energy balance, influenced by the imbalance of energy intake and energy expenditure. The rapid increase in the prevalence of obesity over the past 20 years has a basis in environmental and cultural factors, rather than genetic ones. Adipose tissue has been recognized as an important endocrine organ, one that releases a large number of adipokines and contributes to the development of the metabolic syndrome.6 As standards of living in developed and developing countries improve, overnutrition and sedentary lifestyle supplant physical labour and regular physical activity; the result is a positive energy balance and weight gain.7 Considerable advances have been made in dietary, exercise, behavioural, pharmacological, and bariatric–surgical approaches to successful long-term management of obesity. A modest weight loss of 5 to 10% can significantly improve metabolic co-morbidities and health status.7 While lifestyle intervention remains the cornerstone treatment of obesity, adherence rate is poor and long-term success is modest. This is a consequence of patient factors and physician attitudes to treatment. Pharmacotherapy and bariatric surgery are useful treatments, but for a variety of reasons they are not widely adopted.7 Despite our steady progress in successful obesity management, the prevalence of obesity continues to rise. Prevention and intervention strategies are required to slow, and hopefully reverse, this alarming trend. Population interventions to date have tended to focus on individual risk factors and have been largely ineffective. Simple and practical guidelines for the busy practitioner are desperately needed. A number of clinical practice guidelines (CPGs) have been published, but these were largely developed on the basis of consensus statements by an expert panel. Most of these guidelines focused on individuals rather than on communities and populations. Recognizing these deficiencies, Obesity Canada, a not-for-profit organization, was founded in 1999 with a goal of tackling the obesity epidemic. CPGs for the treatment and prevention of childhood and adult obesity are being written. Members of the steering committee and expert panel have also identified major gaps in knowledge in this area, and the need for a considerable research effort. This will include enhanced surveillance and population-based data; new research on the biological, social, Volume 1, Issue 1, 2006 15 Management of Obesity cultural, and environmental determinants of obesity; and research on effective treatment strategies, policies, and interventions. As obesity is increasingly viewed as a societal issue, the steering committee and expert panel members unanimously agreed to include sections on the prevention of obesity in children and adults at the population level, as well as implications of the CPGs for health policy makers and other interested parties. As knowledge flows from new research, the Canadian CPGs for the management and prevention of obesity will be strengthened. We hope that, as a consequence of their implementation, Canadians will enjoy a slimmer and healthier future. References 1. Shields M. Findings from the Canadian Community Health Survey: Statistics Canada. Nutrition 2005;1. 16 Volume 1, Issue 1, 2006 2. Shields M. Measured obesity: overweight Canadian children and adolescents. Ottawa: Statistics Canada; 2005. 3. Tremblay MS, Willms JD. Is the Canadian childhood obesity epidemic related to physical inactivity? Int J Obes Relat Metab Disord 2003;27:1100-5. 4. Lau DCW, Yan H, Dhillon B. Metabolic syndrome: a marker of patients at high cardiovascular risk. Can J Cardiol 2006;22(Suppl B):85-90B. 5. Birmingham CL, Muller JL, Palepu A, et al. The cost of obesity in Canada. CMAJ 1999;160:483-8. 6. Lau DC, Dhillon B, Yan H, et al. Adipokines: molecular links between obesity and atherosclerosis. Am J Physiol Heart Circ Physiol 2005;288(5):H2031-41. Epub. 7. Lau DCW. Obesity. In: Gray J, ed. Therapeutic Choices, 4th edition. Ottawa: Canadian Pharmacists Association; 2003:1096-101. Canadian Journal of General Internal Medicine Hypertriglycéridémie et grossesse : prévention de pancréatite par plasmaphérèses Marie-Hélène Bastien, MD; Evelyne Rey, MD, MSc, FRCPC SOMMAIRE L’hypertriglycéridémie due à une déficience complète en lipoprotéine lipase est une maladie rare. Cette condition est exacerbée par l’augmentation des oestrogènes pendant la grossesse. Voici le cas d’une femme ayant nécessité plusieurs plasmaphérèses durant sa grossesse dans le but de prévenir une pancréatite. ’hypertriglycéridémie due à une déficience complète en lipoprotéine lipase est une maladie rare (Québec prévalence de 200 / 1 000 000). Cette condition est exacerbée par l’augmentation des oestrogènes pendant la grossesse, augmentant ainsi les risques de pancréatite et de mortalité associée qui peut atteindre 20 %.1 Bien que la plasmaphérèse ait été décrite comme traitement de la pancréatite aigue, son utilisation en prévention de cette complication de l’hypertriglycéridémie est rare.2 Voici le cas d’une femme ayant nécessité plusieurs plasmaphérèses durant sa grossesse dans le but de prévenir une pancréatite. L Cas Il s’agit une femme de 24 ans d’origine canadienne-française Gravida 2, Avorta 1 dont la déficience en LPL (double mutation hétérozygote pour le gène de la LPL G188E et P207) a été diagnostiquée peu après sa naissance. Avant cette grossesse, la triglycéridémie de la patiente était bien contrôlée par une diète faible en gras. Dès le début de la grossesse, la patiente a été prise en charge par une équipe multidisciplinaire incluant une nutritionniste. Une diète contenant 12,5 g/jour de graisse à chaînes longues (diète normale : 75 g /jour) a permis de maintenir le niveau de triglycérides (TG) en dessous de 20 mmol/L jusqu’à la 17e semaine de grossesse. Par la suite, le niveau de TG s’est élevé jusqu’à 39 mmol/L et ce malgré une diminution de l’apport en graisse à chaînes longues jusqu’à 0,5g/jour, l’utilisation de fénofibrate jusqu’à 200 mg et de deux périodes de jeûne de 36 heures. La première plasmaphérèse a eu lieu à 25 semaines de grossesse. La patiente refusant tout produit sanguin, les échanges plasmatiques ont donc été fait avec du salin physiologique et des colloïdes artificiels. La triglycéridémie a chuté en dessous de 20 mmol/L. Cet effet a été de courte durée et le niveau de TG a atteint 71 mmol/L. À la 28e semaine de grossesse, le taux de TG a été abaissé à 21 mmol/L par deux plasmaphérèses en trois jours et maintenus à ce niveau par quatre autres plasmaphérèses jusqu’à l’accouchement, à la 34ieme semaine de grossesse. Le nouveau-né, une fille pesant 2,5 Kg, était en bonne santé. Le lendemain de l’accouchement les TG étaient à 16 mmol/L. En aucun temps la patiente n’a en aucun temps présenté des signes ou des symptômes de pancréatite, de problèmes de coagulation ou infectieux. Tout au long de la grossesse, l’examen physique de la patiente était normal. Elle a présenté des épisodes d’hypotension et d’hypocalcémie lors des plasmaphérèses, ceux-ci ont été corrigés rapidement. À quelques reprises, des thromboses du cathéter ont nécessité une thrombolyse locale. Discussion Ce cas illustre à quel point le niveau de TG peut être difficile à contrôler chez ces patientes enceintes, malgré une diète très restreinte en gras. L’utilisation du fénofibrate est en théorie inefficace chez les personnes avec une déficience en LPL mais quelques cas ont été décrits en grossesse avec succès.3 Nous avons opté pour des plasmaphérèses car, malgré le traitement conventionnel, le niveau de triglycérides demeurait dangereusement élevé. En effet, plusieurs cas de pancréatite aigue en grossesse ont été décrits avec des TG ≤35 mmol/L.4 Selon nous, la morbidité et la mortalité associées aux pancréatites, tant pour le bébé que pour la mère, justifiaient les plasmaphérèses malgré le peu de littérature actuelle supportant notre décision. References 1. Montgomery WH, Miller FC. Pancreatitis and pregnancy. Obstet Gynecol 1970 ; 35 : 658–664. 2. Dittrich E, Schmaldiesnt S, et coll. Immunoadsorption and plasma exchange in pregnancy. Kidney Blood Press Res 2002 ; 25 : 232–239. 3. Tsai C E, Brown JA, et coll. Potential of essential fatty acid deficiency with extremely low fat diet in lipoprotein lipase deficiency during pregnancy : a case report. BMC Pregnancy Childbirth 2004 ; 4 (1) : 27. 4. Archard JM, Westell PF. Pancreatitis related to severe acute hypertriglyceridemia during pregnancy treatment with lipoprotein apheresis. Intens Care Med 1991 ; 17 : 236–237. Marie-Hélène Bastien, MD : RV médecine interne Université Laval; Evelyne Rey, MD, MSc, FRCPC : Hôpital Sainte-Justine, Montréal Adresse de correspondence : Marie-Hélène Bastien, MD, 3775 ave des compagnons app 244, Québec, QC G1X 5C3; courriel : [email protected] Conflict of interest : Aucun declare Can J Gen Intern Med 2006;1:17 Canadian Journal of General Internal Medicine Volume 1, Issue 1, 2006 17 Hypertriglyceridemia and Pregnancy: Preventing Pancreatitis by Using Plasmapheresis Marie-Hélène Bastien, MD; Evelyne Rey, MD, MSc, FRCPC ABSTRACT Hypertriglyceridemia due to a complete lipoprotein lipase deficiency is a rare disease. The condition is exacerbated by the increased estrogen during pregnancy. This is the case of a woman who required several plasmaphereses during her pregnancy in order to prevent pancreatitis. ypertriglyceridemia due to a complete lipoprotein lipase deficiency is a rare disease (the prevalence in Quebec is 200 in 1,000,000). The condition is exacerbated by the increased estrogen during pregnancy, thus increasing the risks of pancreatitis and associated mortality, which may reach 20%.1 Although plasmapheresis has been described as a treatment for acute pancreatitis, its use in preventing this complication of hypertriglyceridemia is rare.2 This is the case of a woman who required several plasmaphereses during her pregnancy in order to prevent pancreatitis. H At no time did the patient show signs or symptoms of pancreatitis or coagulation or infection disorders. Throughout the pregnancy, the patient’s physical examination was normal. She experienced episodes of hypotension and hypocalcemia during the plasmaphereses, which were quickly corrected. Several times, catheter thromboses required local thrombolysis. Discussion This case illustrates how difficult it can be to control TG levels in Case pregnant patients, despite a very-low-fat diet. The use of fenofibrate is The patient was a 24-year-old woman of French-Canadian origin, gravida 2 abortus 1, who was diagnosed with an LPL deficiency (double heterozygous mutation for LPL gene G188E and P207) shortly after she was born. Prior to this pregnancy, the patient’s hypertriglyceridemia was well controlled through a low-fat diet. From the start of the pregnancy, the patient was managed by a multidisciplinary team including a nutritionist. A diet containing 12.5 g/day of long-chain fats (normal diet 75 g/day) kept her triglyceride (TG) level below 20 mmol/L until the seventeenth week of pregnancy. Subsequently, her TG level rose to 39 mmol/L, despite a decrease in long-chain fat consumption to 0.5g/day, the use of fenofibrate up to 200 mg, and two 36-hour periods of fasting. The first plasmapheresis took place at 25 weeks of pregnancy. Since the patient refused any blood products, the plasma exchanges were made with physiological saline and artificial colloids. Her triglyceride level fell to below 20 mmol/L. The effect did not last long, and her TG level reached 71 mmol/L. At the twenty-eighth week of pregnancy, her TG level dropped to 21 mmol/L after two plasmaphereses in three days, and was maintained at that level by four additional plasmaphereses until she gave birth, in the thirty-fourth week of pregnancy. The newborn, a girl weighing 2.5 kg, was healthy. The day after she gave birth, her TG was 16 mmol/L. theoretically ineffective in people with LPL deficiency, but a few successful cases during pregnancy have been described.3 We opted for plasmaphereses because, despite the conventional treatment, her triglyceride levels remained dangerously high. Indeed, several cases of acute pancreatitis in pregnancy have been described with TG ≤35 mmol/L.4 In our opinion, the morbidity and mortality associated with pancreatitis, both for the baby and the mother, justified the plasmaphereses despite the small amount of current literature supporting our decision. References 1. Montgomery WH, Miller FC. Pancreatitis and pregnancy. Obstet Gynecol 1970;35:658–664. 2. Dittrich E, Schmaldiesnt S, et coll. Immunoadsorption and plasma exchange in pregnancy. Kidney Blood Press Res 2002;25:232–239. 3. Tsai C E, Brown JA, et coll. Potential of essential fatty acid deficiency with extremely low fat diet in lipoprotein lipase deficiency during pregnancy: a case report. BMC Pregnancy Childbirth 2004;4(1):27. 4. Archard JM, Westell PF. Pancreatitis related to severe acute hypertriglyceridemia during pregnancy treatment with lipoprotein apheresis. Intens Care Med 1991;17:236–237. Marie-Hélène Bastien, MD: RV Internal Medicine Université Laval; Evelyne Rey, MD, MSc, FRCPC: Hôpital Sainte-Justine, Montréal Address for correspondence:Marie-Hélène Bastien, MD, app 244, 2775 av des Compagnons, Sainte-Foy, QC G1X 5C3; E-mail: [email protected] Conflict of interest: None declared Can J Gen Intern Med 2006;1:18 18 Volume 1, Issue 1, 2006 Canadian Journal of General Internal Medicine Physical Principles of Chest Auscultation Margot R. Roach, MD ABSTRACT Respiratory sounds are generated mechanisms that obey basic physical principles. Understanding these principles can improve one’s diagnostic acumen in auscultation of the chest. SOMMAIRE Les sonorités pulmonaires sont des mécanismes produits qui obéissent à des principes physiques de base. La compréhension de ces principes peut améliorer l’acuité diagnostique à l’auscultation du thorax. ntelligent examination of the chest requires knowledge of how the sounds generated there are produced and transmitted in both health and disease. Sound is described by its frequency, amplitude, and quality. The way sound is transmitted and the amount of damping or attenuation and reflection it experiences depend on the impedance of the surrounding tissue. The airways, with tidal flow, have 22 generations of tubes excluding the trachea and the alveoli. In the first 10 generations, inspiratory flow is turbulent; slightly less so on expiration. Turbulence produces sound with a broad frequency spectrum (200 to 2000 Hz), increasing with tube size and flow rate. A sound’s overtones (compare middle C on a piano and a violin) depend on the fundamental frequency and the overtones produced by the thoracic cavity, and vary with the degree of inflation, as well as the size, shape, and structure of the chest wall. Tracheobronchial sounds come from the first three to four generations of airways, and vesicular sounds from generations four to ten. Beyond this, flow is non-turbulent, so no sounds are produced. Normal tracheobronchial sounds are heard over the neck, often the sternum, and occasionally the upper spine, whereas the vesicular sounds are heard over the mid-thorax laterally. Maximum sound amplitude occurs at its origin and is damped or attenuated as a function of distance from the source. The amount of damping depends on frequency of the sound (high frequencies are damped more than low ones are) and the impedance of the tissue. This means that solids transmit sound faster than liquids, and gases transmit the slowest. Because consolidated lung has an impedance between that of liquid and metal, it will dampen the sounds very little. Hence, if a lobe is consolidated, the tracheobronchial sounds will be transmitted to the chest wall through that lobe, whereas they are effectively damped out in travelling through normal lung. Similarly, vesicular sounds may have an increased intensity over a segment that is consolidated if it is fed by medium-sized bronchi. An overinflated chest increases the distance the sound must travel through air, and hence the sounds are more attenuated. At an interface, if the two impedances are comparable, most of the I Address for correspondence: Margot R. Roach, MD, 104 Sea Shore Drive, RR1, Tatamagouche, NS B0K 1V0; E-mail: [email protected] Conflict of interest: None declared Can J Gen Intern Med 2006;1:19-20 Canadian Journal of General Internal Medicine sound passes through; if they are different, most of the sound is reflected. At an air–water interface, only 0.1% of sound is transmitted, compared with 100% at a water–water interface. Thus, tracheobronchial sounds will be heard over an effusion over a region of consolidation, but there will be no audible sounds if the effusion is over normal lung. Wheezes are high-pitched musical expiratory sounds with a single frequency that is velocity dependent. They are produced by eddy shedding rather than by turbulence, and are particularly apt to occur if a small tube opens into a much larger one. By way of example, eddies are easy to see in water if a log sticks out into a stream; the edge of the flow divider acts the same way in the lung. Chests should be examined first with normal breathing and then with deep breathing. However, if the patient has irritable airways that are prone to collapse, often no expiratory sounds are heard. Wheezes can be heard in patients with minimal bronchospasm only with forced expiration, a manoeuvre that makes bronchioles collapse from the increased pressure in the thoracic cavity. Crackles are produced by air moving through liquid. The viscosity of the fluid determines the character and frequency of the sound. Watery fluids, as occur in pulmonary edema, have a higher pitch than do thick viscous fluids that occur in pneumonia. Take a bottle with liquids of varying viscosity and try blowing bubbles with different sizes of straws and different flow rates. By changing the size of the bottle, and by including one with a small neck, you can make the overtones vary and change the quality of the sound. Crackles are usually heard best in inspiration. They are audible without a stethoscope if the fluid is in the first few generations of bronchi. If the sputum is very viscous, it will be hard to move and crackles may be absent. In these situations (e.g., in tuberculosis), you can increase the chance of hearing crackles if you ask the patient to take a deep inspiration and then to produce two short coughs during expiration to loosen the sputum, before inspiring once more. The fine crackles observed occasionally with atelectasis do not come from the alveoli as the flow rate is too low. They likely originate in generations 12 to 14 of the bronchial tree; therefore, they are associated only with large areas of atelectasis. Since the adjacent lung may be overinflated, there may be more attenuation. Hence, these crackles may be harder to hear. Voice sounds are produced in the larynx and more proximal parts of Volume 1, Issue 1, 2006 19 Physical Principles of Chest Auscultation the airway, and can be transmitted back into the open airways when the vocal cords are open. Loud sounds, or even whispered ones, may set the large bronchi vibrating and can then be heard over an area of consolidation. However, as voice sounds are carried primarily in the air, they are reflected at a pleural effusion regardless of whether it lies over a consolidated area. This difference in transmission of breath sounds and voice sounds allows one to determine whether there is an effusion over an area of consolidation. Pleural rubs are due to the two layers of pleura partially sticking to each other and creating a sound like that produced by rubbing wet leather. Pleural rubs, and the pain associated with them, are diminished if fluid separates the pleura or if they are stuck together. In summary, respiratory sounds are generated and propagated in accordance with basic physical principles. Understanding these principles can improve your diagnostic acumen in auscultation of the chest. 20 Volume 1, Issue 1, 2006 Dr. Roach trained in mathematics/physics in New Brunswick, medicine at McGill, and biophysics at UWO. She obtained her FRCPC in 1965 and did postdoctoral studies in Oxford before taking appointments in medicine and biophysics at UWO. She has published research on the elastic properties of arteries and the consequent changes seen in arteriosclerosis and aneurysmal disease. A pioneer in medical biophysics, she has won many prestigious teaching and research awards, and is now happily retired in Tatamagouche, Nova Scotia. Bibliography Forgacs P. Lung Sounds. London: Bailiere Tindall; 1978:44-54. Nath AR, Capel LH. Inspiratory crackles and mechanical events of breathing. Thorax 1974;29:695-8. Canadian Journal of General Internal Medicine “GIM” Goes Global: The First International Symposium in General Internal Medicine—Toronto, April 2007 William A. Ghali, MD, MPH; Jacques Cornuz, MD, MPH; Donald Echenberg, MD ABSTRACT GIM is yet to have a global identity, despite the similarity of what we do in different countries. Unlike other specialties, we have not invested in international conferences and trials, and as a result we have not developed the necessary networks. A conference in Toronto (April 2007) will address this issue. SOMMAIRE GIM doit avoir encore une identité globale, en dépit de la similitude de ce que nous faisons dans différents pays. À la différence d’autres spécialités, nous démuni investi dans des conférences internationales et les épreuves, et en conséquence nous n’avons pas développé les réseaux nécessaires. Une conférence à Toronto (avril 2007) abordera cette question. To realize the full possibilities of this economy, we must reach beyond our own borders, to shape the revolution that is tearing down barriers and building new networks among nations and individuals, and economies and cultures: globalization. It’s the central reality of our time. —William J. Clinton countries for interaction to be fruitful. However, this is a relatively It has been said that arguing against globalization is like arguing against the laws of gravity. —Kofi Annan even greater when one considers the shared academic focus in areas minor issue when one considers our common areas of interest, such as the management of complex patients with multi-system disease, chronic disease management, prevention, and the management of patients with undifferentiated symptom presentations. GIM synergy is such as medical education, clinical epidemiology, health services research, medical informatics, health economics, and the challenges of quality and safety.1 ark your calendars. An important event is about to occur in Toronto next April—the staging of the First International Symposium in General Internal Medicine (GIM). The symposium arises from over 3 years of dialogue among international leaders in GIM, and will be held in conjunction with the 30th Annual Meeting of the Society of General Internal Medicine (SGIM) at the Sheraton Centre Toronto (April 25–28, 2007). GIM has, for the most part, evolved in country-specific “silos” over the past several decades. This is in contrast to other subspecialties of internal medicine, which have developed a worldwide presence through the staging of large international meetings and the associated formation of collaborative networks designed to advance agendas in research, education, and clinical care. Supporting the call for a more global role for GIM is the recognition that the clinical work of general internists is quite similar in many countries (e.g., the United States, Canada, Switzerland, Japan, Argentina, Australia, and New Zealand).1 The differing emphasis on primary care roles for general internists may have led some to conclude that GIM differs too much between M The International Symposium in Toronto will feature sessions on quality of care and patient safety, the role of the general internist in global health, and the burgeoning areas of e-Health innovation and chronic disease management. This will be followed by the SGIM’s annual meeting, which has adopted the theme “The Puzzle of Quality: Clinical, Educational, and Research Solutions”—something we can all relate to. Further information can be found at www.sgim.org. The rich mixture of plenary sessions, oral and poster research sessions, workshops, and clinical updates has routinely attracted over 2,000 attendees from the United States and abroad. In the past, relatively few Canadian general internists have attended, possibly because of a misperception that SGIM is focused exclusively on primary care. On the contrary, SGIM annual meetings have something to offer almost all clinical and academic profiles, including Canadian internists. A wave of globalization is about to engulf GIM. Come to Toronto this spring, and help us take a first big step toward creating a vibrant and global discipline of general internal medicine! William A. Ghali, MD, MPH: Departments of Medicine and Community Health Sciences, and Centre for Health and Policy Studies, University of Calgary, Calgary, Alberta; Jacques Cornuz, MD, MPH: Policlinique Médicale Universitaire, and Institute for Social and Preventive Medicine, University of Lausanne, Lausanne, Switzerland; Donald Echenberg, MD: Department of Medicine, University of Sherbrooke, Sherbrooke, Quebec E-mail address for correspondence: [email protected] Conflict of interest: None declared Can J Gen Intern Med 2006;1:21 Canadian Journal of General Internal Medicine Reference 1. Ghali WA, Greenberg PB, Mejia R, et al. International perspectives on general internal medicine and the case for ‘globalization’ of a discipline. J Gen Intern Med 2006;21:197-200. Volume 1, Issue 1, 2006 21 Improving End-of-Life Care in Clinical Teaching Units: The Associated Medical Services, Inc., Fellowship in End-of-Life Care Chris Frank, MD, CCFP, FCFP; Deb Pichora, RN, MSc; Cori Schroder, MD, CCFP, FCFP; Phil Wattam, MD, FRCPC; Daren Heyland, MD, FRCPC, MSc ABSTRACT Associated Medical Services, Inc., is a charitable organization supporting innovations in academic medicine and health services in Ontario. In 2005, AMS awarded nine fellowships in end-of-life (EOL) care to address the clinical needs of hospitalized non-cancer patients in the terminal stage of their illness. The goals of the fellowship are to improve knowledge, skills, and attitudes of internal medicine residents; to develop interdisciplinary models of exemplary EOL care in internal medicine CTUs; and to improve the overall care of patients with end-stage illness. SOMMAIRE Associated Medical Services Inc. est une société de bienfaisance apportant son appui aux innovations en médecine universitaire et services de la santé en Ontario. En 2005, l’AMS a octroyé neuf bourses pour les soins de fin de vie dans le but d’aborder les besoins cliniques des patients hospitalisés qui ne souffrent pas du cancer mais qui se trouvent en phase terminale. Les buts de ces bourses consistent à améliorer les connaissances, les compétences et les attitudes des résidents en médecine interne; à mettre au point des modèles interdisciplinaires de soins exemplaires de fin de vie dans les unités d’enseignement clinique en médecine interne; et à améliorer les soins généraux des patients atteints d’une maladie terminale. recent Senate subcommittee report titled “Quality End of Life Care: the Right of Every Canadian”1 advanced the notion that a “quality death” is the right of every citizen and endorsed the principles and practice of palliative care. Traditionally, palliative care has focused on terminal cancer patients enrolled in palliative care programs. Evidence suggests that dying from cancer is not the same as dying from end-stage medical conditions. Non-cancer patients have a less predictable decline, experience more frequent hospital admissions, have do-not-resuscitate orders written later in their hospital course, and are less likely to receive palliative care consultation.2,3 Canadian patients with advanced medical diseases have been shown to be more dissatisfied with their care than are patients with cancer.4 Although the federal government has increased resources for palliative care support at home,5 the majority of Canadians die from non-cancer causes in hospital while under the care of general internists and other medical specialists. Improving end-of-life (EOL) care in this population of patients is an important goal. A Associated Medical Services, Inc., Fellowship in End-of-Life Care Associated Medical Services, Inc. (AMS), is a charitable organization supporting innovations in academic medicine and health services in Chris Frank, MD, CCFP, FCFP, Deb Pichora, RN, MSc, and Phil Wattam, MD, FRCPC: Department of Medicine, Queen’s University, Kingston, Ontario; Cori Schroder, MD, CCFP, FCFP: Departments of Oncology and Family Medicine, Queen’s University, Kingston, Ontario; Daren Heyland, MD, FRCPC, MSc: Departments of Medicine and of Community Health and Epidemiology, Queen’s University, Kingston, Ontario Address for correspondence: Daren Heyland, MD, FRCPC, MSc, Angada 4, 76 Stuart Street, Kingston General Hospital, Kingston, ON K7L 2V7; E-mail: [email protected] Conflict of interest: None declared Can J Gen Intern Med 2006;1:22-23 22 Volume 1, Issue 1, 2006 Ontario. In 2005, AMS awarded fellowships in EOL care to nine physicians working in six Ontario teaching hospitals to address the unmet clinical needs of hospitalized patients at high risk of dying. The goals of the fellowship are to improve knowledge, skills, and attitudes of internal medicine residents, to develop interdisciplinary models of exemplary EOL care in internal medicine clinical teaching units, and to improve the overall care of patients with end-stage illness. The AMS fellowships will be implemented in the fall of 2006 and will continue over 5 years. Studies suggest that physicians’ knowledge and skills related to EOL care is inadequate.6–8 It is not known how much EOL training residents in internal medicine programs in Canada receive, even though residents are the physicians who spend the most time providing direct EOL care in hospitals.9 Residency is a great opportunity to influence EOL care as “residents are in a unique stage of their training; while they have mastered many basic clinical skills they remain open to educational experiences that might alter their lifelong practice patterns.”10 The development of educational initiatives will be a key component of the fellowship. Baseline measurements of residents’ knowledge, attitudes, and self-assessment; staff attitudes; patient and family satisfaction; and organizational culture will be done in the fall of 2006. This information will be used to guide curriculum development. Fellows will attempt to influence the core internal medicine curriculum by introducing EOL content into “traditional” medicine teaching topics (e.g., management of congestive heart failure) and by developing new sessions on EOL care within existing education formats at their centres. These will include academic half-days, sign-over rounds, and mortality/morbidity reviews. One focus of the fellowship will be to improve resident skills in EOL communication. Internal medicine residents usually play a primary role Canadian Journal of General Internal Medicine Frank et al. in communication with sick patients and their families, during regular ward work and in family conferences. It is hoped that fellows will have an impact on residents’ knowledge and skills in communication using a variety of formats such as small group workshops, role playing, and importantly, role modelling. Role modelling has been shown to be an important factor in improving communication skills,11 and increasing fellows’ participation in family conferences and EOL communication will be an important part of improving care. A literature review of studies related to family conferences has been done, and from this review a framework has been developed and distributed to aid in clinical role modelling and formal teaching. Although, initiatives designed to improve residents’ knowledge of EOL care have been shown to be successful,6,8,12 they may not always lead to a concomitant change in practice or behaviour.13 The fellows will use strategies shown to be helpful in facilitating change in practice, including acting as key physician opinion leaders, small-group problem-solving sessions, practice audit, and feedback. In some sites, EOL objectives have been added to the core internal medicine rotation objectives to promote evaluation of residents in their care of dying patients. Importantly, fellows will try to focus on improving models of care in their sites as a strategy to promote practice change. This includes increasing links with clinical pharmacists, optimizing the process of family conferences, improving links with palliative care services, and developing checklists for complicated discharge planning with dying patients. Evaluation Strategy The goal of the evaluation is to assess the impact of the AMS fellowship on resident and staff knowledge, skills, and attitudes; on patient and family satisfaction; and on organizational culture. Residents will be evaluated using a quasi-experimental before-and-after study design. As illustrated in Figure 1, these findings will be used to inform subsequent educational and quality-improvement initiatives. Quantity of EOL teaching will be tracked, and changes in resident knowledge and attitudes related to EOL care will be measured using a self-assessment tool based on the Educating Future Physicians in Palliative and End-of-Life Care (EFPPEC) competencies (available at www.efppec.ca), a knowledge test, and the Block and Arnold Attitudes about EOL Care Scale. AMS Fellow Educational Experiences Role model Opinion Leader Quality Improvement Initiatives Resident knowledge, attitudes, skills, self-assessment QUALITY OF CARE Patient/family satisfaction Staff attitudes Organizational Culture DATA COLLECTION – ANALYSES Phase 2 evaluation – Formative Phase 2 evaluation – Summative Baseline End YR1 implementation End YR2 implementation IMPACT AMS Fellowship Phase 3 evaluation strategy Figure 1. Overview of the Associated Medical Services, Inc., fellowship evaluation. Canadian Journal of General Internal Medicine The AMS evaluation will be unique in its ability to link measures of residents’ EOL knowledge and attitudes to patient and family feedback on care through the use of the CANHELP questionnaire, a validated Canadian tool to measure satisfaction with EOL care. This will be an important strategy to provide feedback for individual sites. Summary Using change strategies known to make a difference in clinical outcomes,14 the multifaceted interventions of the AMS Fellowship in EOL Care has a high probability of improving care for dying patients in clinical teaching units. The evaluation of the fellowship provides assessment of its impact (summative) while assisting in the refinement of the exemplary models of EOL care (formative). It is anticipated that the lessons learned from the fellowship will be applicable to other hospital settings across Canada. Dr. Frank is a family physician with certification in Care of the Elderly and works in Division of Geriatric Medicine and with palliative care at Queen’s University. References 1. Carstairs S, Beaudoin GA. Quality End of Life Care: The Right of Every Canadian. Ottawa: Government of Canada; 2000. 2. Tranmer JE, Heyland DK, Dudgeon D, et al. The symptom experience of seriously ill cancer and non-cancer hospitalized patients near the end of life. J Pain Symptom Manage 2003;25:420-9. 3. Tanvetyanon T, Leighton JC. Life-sustaining treatments in patients who died of chronic congestive heart failure compared with metastatic cancer. Crit Care Med 2003;31:60-4. 4. Heyland DK, Groll D, Rocker G, et al. End of life care in acute care hospitals in Canada. A quality finish? J Palliat Care 2005;21:142-50. 5. Department of Finance, Canada. Highlights of Budget 2003. Available at: http://www.fin.gc.ca/news03/03-010e.html#Highlights. 6. Field M, Cassel CK, eds. Approaching Death: Improving Care at the End of Life. Committee on Care at the End of Life, Division of Health Care Services, Institute of Medicine. Washington, DC. National Academy Press; 1997. 7. Oneschuk D, Fainsinger R, Janson H, Bruera E. Assessment and knowledge in palliative care in second year family medicine residents. J Pain Symptom Manage 1997;14:265-73. 8. Okon TR, Evans JM, Gomez CF, Blackhall LJ. Palliative educational outcome with implementation of PEACE tool integrated clinical pathway. J Palliat Care 2004;7:279-90. 9. Tulsky JA, Chesney MA, Lo B. How do medical residents discuss resuscitation with patients? J Gen Int Med 1995;10:436-42. 10. Fins JJ, Nilson EG. An approach to educating residents about palliative care and clinical ethics. Acad Med 2000;75:662-5. 11. Whiting N, Frank C. Get the code status: teaching housestaff about end-of-life communication with older patients. Geriatr Today 2004;7(1):6-9. 12. Liao S, Amin A, Rucker L. An innovative, longitudinal program to teach residents about end-of-life care. Acad Med 2004;79:752-7. 13. Sulmasy DP, Song KY, Marx ES, Mitchell JM. Strategies to promote the use of advance directives in a residency outpatient practice. J Gen Intern Med 1996;11:657-63. 14. Grimshaw J, Thomas RE, MacLennan G, et al. Effectiveness and efficiency of guideline dissemination and implementation strategies. Health Technol Assess 2004;8:1-72. Volume 1, Issue 1, 2006 23 JOURNAL REVIEW Sodium Intake and Mortality in the NHANES II Follow-up Study Cohen HW, Hailpern SM, Fang J, Alderman M. Am J Med 2006;119:275. e7-14 Reviewed by Norm Campbell, MD, FRCPC; Bert Govig, MD, FRCPC anadians consume twice as much sodium as is recommended for health.1 Meta-analyses demonstrate significant increases in blood pressure with increases in sodium intake,2–4 and up to 17% of hypertension is caused by excess sodium ingestion.5 Other health risks including osteoporosis, asthma, worsening of heart failure, and stomach cancers have been associated with high sodium consumption.6 Almost 80% of the sodium in our diet is added by the food industry, and an extensive lobby led by the salt industry challenges the benefit of reducing sodium in our diet.7,8 Its cause is aided by the lack of randomized controlled trials addressing the morbidity and mortality of patients consuming high- versus low-sodium diets. Observational trials are the next best level of evidence that can shed light on this issue, and this article reviews one attempt to answer the “salt question” using such data. National Health and Nutrition Examination Survey II (NHANES II; 1976–1980) was a government-sponsored representative, crosssectional survey of the dietary habits and health status of the US population. A recent article published in the American Journal of Medicine (AJM) used this data to compare the outcomes of those with high and low sodium intake—“Sodium Intake and Mortality in the NHANES II Follow-up Study.”9 According to the study analysis, low dietary sodium was associated with increased cardiovascular and allcause mortality. However, a close examination of the AJM article raises serious concerns about the validity of the analysis and conclusions. The first concern relates to the study analysis. The major mechanism by which diets high in sodium produce harm is through an increase in blood pressure. This analysis adjusted the data to control for blood pressure differences, thus mitigating much of the harmful effect of a high-sodium diet. The next major issue is the presence of other variables that confound comparisons between the two groups. In the AJM study, those consuming a low-sodium diet were less educated, older, less physically active, and lighter (with a similar body mass index); had more diabetes; ate less; had higher cholesterol levels; and were more often Black. Some of these factors were crudely categorized, which reduces the accuracy of statistical adjustments. Lastly, many of these factors correlate with poverty, which is an independent risk factor for mortality; and although socioeconomic data were available, they were not used in the analysis or adjustment of the data. C Norm Campbell, MD, FRCPC: Professor of Medicine, Division of General Medicine, University of Calgary, Calgary, Alberta; Bert Govig, MD, FRCPC: Community General Internist—CSSSEA, Amos, Québec E-mail address for correspondence: [email protected] Conflict of interest: None declared Can J Gen Intern Med 2006;1:24-25 24 Volume 1, Issue 1, 2006 Finally, several results in this study are puzzling: 1. Those with a low intake of dietary sodium were less healthy and educated, which is the contrary of what one expects to find in those who self-select for a low-sodium diet. 2. The findings in this analysis are discordant with analyses of previous NHANES-derived data with respect to the relationships between sodium consumption and blood pressure and cardiovascular events.10,11 3. The major method of achieving a low-sodium diet is eating unprocessed foods that are relatively high in potassium. In the AJM analysis, the low-sodium-diet group inexplicably had a low potassium intake. Outcomes from observational trials are highly dependant on factors used to create the comparison groups. It is extremely difficult to control for all of the factors that influence people’s behavioural choices, and these types of studies may lead us to erroneous conclusions. A recent example of this is the change in recommendations with respect to hormone replacement therapy, when prospective randomized controlled trials did not confirm the findings of observational studies.12,13 Nutritional choices are arguably more complex than drug therapy choices, and we must be even more circumspect in the interpretation of observational trials in the field of nutrition. Given the methodological issues that this study raises and its unexpected and counterintuitive findings, its results should be duly noted and filed away for epidemiology teaching rounds. Instead, the results of this study have been highly promoted by the salt industry (www.saltinstitute.org). This sends a confusing and potentially harmful message to the public. How safe is the addition of high quantities of sodium to our food? Based on the sum of the evidence, we believe that high dietary sodium is a serious health risk to our population. This same conclusion has been reached by the World Health Organization,14 the Canadian and American governments,1 and many other national governments and scientific organizations around the world. Recently the American Medical Association has recommended that the government revoke the “safe” status of sodium as food additive.15 These highly conservative groups have no bias for or against sodium but have called for action to reduce dietary sodium. Health care professionals need to be alert for “weak science” that generates an aura of controversy around health issues. This is a lesson that we have all learned from the saga of the tobacco industry (www.tobaccoscam.org), but other industries may also try to distort science for their benefit. The AJM article has substantial methodological concerns and does not contribute to the scientific literature on sodium and health. Canadian Journal of General Internal Medicine Campbell and Govig Dr. Campbell was the 2005 winner of the Dr. David Sackett Senior Investigator Award. He is currently professor of medicine, Division of General Medicine, at the University of Calgary. References 1. Panel on Dietary Reference Intakes for Electrolytes and Water, Standing Committee on the Scientific Evaluation of Dietary Reference Intakes. Dietary Reference Intakes for Water, Potassium, Sodium, Chloride, and Sulfate. Washington, DC: National Academies Press; 2004. Available at: www.nap.edu/catalog/10925.html. 2. He FJ, MacGregor GA. Effect of longer-term modest salt reduction on blood pressure. Cochrane Database Syst Rev 2004;1-64. 3. He FJ, MacGregor GA. How far should salt intake be reduced? Hypertension 2003;42:1093-9. 4. Geleijnse JM, Kok FJ, Grobbee D. Blood pressure response to changes in sodium and potassium intake: a metaregression analysis of randomised trials. J Hum Hypertens 2003;17:471-80. 5. Geleijnse JM, Grobbee DE, Kok FJ. Impact of dietary and lifestyle factors on the prevalence of hypertension in Western populations. J Hum Hypertens 2005;19:S1-4. 6. de Wardener HE, MacGregor GA. Harmful effects of dietary salt in addition to hypertension. J Hum Hypertens 2002;16:213-23. Canadian Journal of General Internal Medicine 7. MacGregor GA, Sever PS. Salt—overwhelming evidence but still no action: can a consensus be reached with the food industry? BMJ 1996;312:1287-9. 8. Godlee F. The food industry fights for salt. BMJ 1996;312:1239-40. 9. Cohen HW, Hailpern SM, Fang J, Alderman MH. Sodium intake and mortality in the NHANES II follow-up study. Am J Med 2006;119:275.e7-14. 10. Hajjar IM, Grim CE, George V, Kotchen TA. Impact of diet on blood pressure and age-related changes in blood pressure in the US population. Arch Intern Med 2001;161:589-93. 11. He J, Ogden LG, Vupputuri S, et al. Dietary sodium intake and subsequent risk of cardiovascular disease in overweight adults. JAMA 1999;282:2027-34. 12. Rossouw JE, Anderson GL, Prentice RL, et al. Risks and benefits of estrogen plus progestin in healthy postmenopausal women: principal results from the Women’s Health Initiative randomized controlled trial. JAMA 2002;288:321-33. 13. Hulley S, Grady D, Bush T, et al. Randomized trial of estrogen plus progestin for secondary prevention of coronary heart disease in postmenopausal women. Heart and Estrogen/progestin Replacement Study (HERS) Research Group. JAMA 1988;280:605-13. 14. World Health Organization. The World Health Report 2002. Geneva, Switzerland: World Health Organization; 2002. 15. Warner M. The war over salt. New York Times 2006 Sep 13;C1. Volume 1, Issue 1, 2006 25 EN BREF Apport sodique et mortalité dans l’étude de suivi NHANES II Cohen HW, Hailpern SM, Fang J, Alderman M. Am J Med 2006;119:275. e7-14 Revu par Norm Campbell, MD, FRCPC; Bert Govig, MD, FRCPC es Canadiens et Canadiennes consomment deux fois plus de sodium qu’il n’est recommandé pour leur santé.1 Des méta-analyses démontrent des élévations significatives de la tension artérielle avec l’augmentation de l’apport sodique,2–4 et 17 % des cas d’hypertension sont causés par une ingestion excessive de sodium.5 D’autres risques pour la santé incluent l’ostéoporose, l’asthme, l’aggravation de l’insuffisance cardiaque, et le cancer de l’estomac a été associé à la trop grande consommation de sel.6 Presque 80 % du sodium de notre diète est ajouté par l’industrie alimentaire, et les pressions exercées par l’industrie du sel viennent remettre en question les bienfaits d’une diète réduite en sodium.7,8 L’absence d’études cliniques, contrôlées, à répartition aléatoire abordant la morbidité et la mortalité des patients qui consomment beaucoup de sodium par rapport à ceux qui en consomment moins vient en aide à la cause. Des études par observation représentent ce qu’il y a de mieux pour élucider ce sujet, et cet article examine une tentative de répondre à la question du sel en utilisant de telles données. Le National Health and Nutrition Examination Survey II (NHANES II; 1976–1980) était une enquête ponctuelle parrainée par le gouvernement sur les habitudes alimentaires et l’état de santé de la population américaine. Un article récent publié par l’American Journal of Medicine (AJM) a utilisé ces données pour comparer les résultats d’une consommation élévée et faible de sodium –« Apport sodique et mortalité dans l’étude de suivi NHANES II ».9 Selon l’analyse, un faible apport en sodium a été associé à une augmentation de la mortalité cardiovasculaire et de la mortalité toutes causes. Toutefois, un examen minutieux de l’article de l’AJM a soulevé de sérieux problèmes au sujet de la validité de l’analyse et des conclusions. La première préoccupation concerne l’analyse de l’étude. Les diètes riches en sodium peuvent nuire à la santé parce qu’il y a augmentation de la tension artérielle. Cette analyse a ajusté les données pour contrôler les différences de tension artérielle, et par conséquent, a atténué la grande partie de l’effet nuisible d’une diète à teneur élevée en sodium. La deuxième préoccupation est la présence d’autres variables confusionnelles de comparaison entre les deux groupes. Dans l’étude de l’AJM, les personnes qui consommaient une diète hyposodique étaient moins éduquées, plus âgées, moins actives physiquement et plus minces (avec un indice de masse corporelle semblable); étaient atteintes de diabète; mangeaient moins; avaient des taux de cholestérol plus élevés; étaient plus souvent de race noire. Certains de ces facteurs ont été L Norm Campbell, MD, FRCPC: Professeur de médecine, Division de la médecine générale, Université de Calgary, Calgary, Alberta; Bert Govig, MD, FRCPC: Interniste général—CSSSEA, Amos, Québec Adresse pour correspondance : [email protected] Conflit d’intérêt : Aucun déclaré Can J Gen Intern Med 2006;1:26-27 26 Volume 1, Issue 1, 2006 catégorisés sommairement, ce qui vient réduire la justesse des ajustements statistiques. Et finalement, plusieurs de ces facteurs correspondent à la pauvreté, ce qui est un facteur de risque indépendant pour la mortalité; et bien que des données socio-économiques soient disponibles, elles n’ont pas été utilisées dans l’analyse ni l’ajustement des données. Finalement, plusieurs résultats de cette étude nous laissent perplexes : 1. Les personnes qui avaient une diète hyposodique étaient moins en santé et moins éduquées, ce qui est le contraire de ce qu’on peut s’attendre chez les personnes qui choisissent d’elles-mêmes d’adopter une diète à faible teneur en sodium. 2. Les résultats de cette analyse ne correspondent pas à ceux des analyses des données de l’étude NHANES pour ce qui est de la relation entre la consommation de sodium et la tension artérielle et les événements cardiovasculaires.10,11 3. Pour que la diète soit à faible teneur en sodium il suffit de manger des aliments qui ne sont pas transformés et dont la teneur en potassium est élevée. Dans l’analyse de l’AJM, la teneur en potassium du groupe qui consommait une diète hyposodique était inexplicablement faible. Les résultats des études par observation reposent en grande partie sur des facteurs utilisés pour créer des groupes de comparaison. Il est extrêmement difficile de contrôler tous les facteurs qui influencent les choix comportementaux des gens et ces types d’études peuvent donner des conclusions erronées. Un exemple récent est le changement dans les recommandations en matière de traitement hormonal de substitution, lorsque des études cliniques prospectives, à répartition aléatoire et contrôlées n’ont pas confirmé les résultats des études par observation.12,13 Les choix alimentaires sont, si on peut dire, plus complexes que les choix de traitements médicamenteux et nous devons être encore plus circonspects à l’égard de l’interprétation des études par observation dans le domaine de la nutrition. Étant donné les problèmes méthodologiques que cette étude soulève et ses résultats inattendus et contre-intuitifs, ses résultats devraient être notés en bonne et due forme et classés pour les leçons cliniques en épidémiologie. Au lieu de cela, l’industrie du sel a fait une vaste promotion des résultats de cette étude (www.saltinstitute.org). Ainsi, le message transmis au public est bouleversant et possiblement nuisible. Est-ce sécuritaire d’ajouter de grandes quantités de sodium à notre nourriture? En se fondant sur toutes les preuves, nous croyons qu’une diète à teneur élevée en sodium représente un risque serieux pour la santé de la population. La même conclusion a été formulée par l’Organisation mondiale de la santé,14 les gouvernements du Canada et des États-Unis,1 et plusieurs autres organismes gouvernementaux à l’échelle nationale et sociétés scientifiques de par le monde. Tout dernièrement, l’American Medical Association a recommandé que le Canadian Journal of General Internal Medicine Campbell et Govig gouvernement abolisse le statut sécuritaire du sodium comme additif alimentaire.15 Ces groupes hautement conservateurs ne sont ni pour ni contre le sodium, mais ont fait appel à l’action pour réduire le sodium alimentaire. Les professionnels des soins de santé doivent être prévenus au sujet de la «science imprécise» qui génère maintes controverses au sujet de questions de santé. C’est une leçon que nous avons tous retenue de l’industrie du tabac (www.tobaccoscam.org), mais d’autres industries peuvent également déformer la science à leur avantage. L’article de l’AJM comporte des problèmes méthodologiques appréciables et n’apporte rien à la documentation scientifique sur le sodium et la santé. factors on the prevalence of hypertension in Western populations. J Hum Hypertens 2005;19:S1-4. 6. de Wardener HE, MacGregor GA. Harmful effects of dietary salt in addition to hypertension. J Hum Hypertens 2002;16:213-23. 7. MacGregor GA, Sever PS. Salt—overwhelming evidence but still no action: can a consensus be reached with the food industry? BMJ 1996;312:1287-9. 8. Godlee F. The food industry fights for salt. BMJ 1996;312:1239-40. 9. Cohen HW, Hailpern SM, Fang J, Alderman MH. Sodium intake and mortality in the NHANES II follow-up study. Am J Med 2006;119:275.e7-14. Le Dr Campbell est le récipiendaire de la bourse en 2005 du Dr David Sackett Senior Investigator Award. Il est professeur de médecine à la Division de la médecine générale de l’Université de Calgary. 10. Hajjar IM, Grim CE, George V, Kotchen TA. Impact of diet on blood pressure and age-related changes in blood pressure in the US population. Arch Intern Med 2001;161:589-93. 11. He J, Ogden LG, Vupputuri S, et al. Dietary sodium intake and subsequent risk of cardiovascular disease in overweight adults. Références 1. Panel on Dietary Reference Intakes for Electrolytes and Water, Standing Committee on the Scientific Evaluation of Dietary Reference Intakes. Dietary Reference Intakes for Water, Potassium, Sodium, Chloride, and Sulfate. Washington, DC: National Academies Press; 2004. Available at: www.nap.edu/catalog/10925.html. 2. He FJ, MacGregor GA. Effect of longer-term modest salt reduction on blood pressure. Cochrane Database Syst Rev 2004;1-64. 3. He FJ, MacGregor GA. How far should salt intake be reduced? Hypertension 2003;42:1093-9. 4. Geleijnse JM, Kok FJ, Grobbee D. Blood pressure response to changes in sodium and potassium intake: a metaregression analysis of randomised trials. J Hum Hypertens 2003;17:471-80. 5. Geleijnse JM, Grobbee DE, Kok FJ. Impact of dietary and lifestyle Canadian Journal of General Internal Medicine JAMA 1999;282:2027-34. 12. Rossouw JE, Anderson GL, Prentice RL, et al. Risks and benefits of estrogen plus progestin in healthy postmenopausal women: principal results from the Women’s Health Initiative randomized controlled trial. JAMA 2002;288:321-33. 13. Hulley S, Grady D, Bush T, et al. Randomized trial of estrogen plus progestin for secondary prevention of coronary heart disease in postmenopausal women. Heart and Estrogen/progestin Replacement Study (HERS) Research Group. JAMA 1988;280:605-13. 14. World Health Organization. The World Health Report 2002. Geneva, Switzerland: World Health Organization; 2002. 15. Warner M. The war over salt. New York Times 2006 Sep 13;C1. Volume 1, Issue 1, 2006 27 CSIM NEWS AWARD WINNERS Osler Award Winners 2006 The CSIM Osler Awards are presented annually to individuals demonstrating excellence in achievement in the field of general internal medicine (GIM) in clinical practice, research, medical education, or specialty development. The 2006 awards were sponsored by AstraZeneca and the recipients are Dr. Robert Dupuis, Dr. Gerald Karr, Dr. Henry de Souza, and Dr. Donald Steeves. Robert Dupuis Henry de Souza (Nominated by Dr. D. Echenberg and Dr. B. Govig) (Nominated by Dr. P. Fernandez and Dr. P. Bolli) Dr. Robert Dupuis trained at Laval and in Montreal, Quebec, before moving to Thetford Mines in 1986 to practise internal and cardiovascular medicine. Dupuis has been very active in research, publishing extensively in major journals. He has been co-investigator in many national and international cardiology trials. He has been active in teaching internal medicine residents, and is an affiliated professor with Laval University. This is in addition to a busy clinical practice, including inpatient medicine, pacemaker clinic, and ICU work. Dupuis has been successful in recruiting colleagues on the basis of his model practice. Gerald Karr (Nominated by Dr. T. Ashton and Dr. C. Offer) Dr. Gerald Karr studied pharmacology, then medicine, in Winnipeg, graduating in 1969, and put both disciplines to use in an eight-year clinical association with the University of Calgary. For nearly thirty years, he has been an active member of staff of the Penticton Regional Hospital, BC. Karr’s career is distinguished by a lifelong contribution to leadership, specialty development, and health promotion. He has provided a lifetime of service to the provision of renal medicine in BC and locally, and he has been instrumental in developing clinical research and ethics programs, and in establishing preventive medicine strategies to his community. Karr has served on many committees in the BC College of Physicians and the CMA. He has been an active member, and president, of both the BC Medical Association and the Canadian Society of Internal Medicine. As a natural leader, he has been said “to have an excellent ability…in dealing with highly complex, controversial and sometimes emotional situations…an ability to get a meeting back on track, or bring order from chaos.” 28 Volume 1, Issue 1, 2006 Dr. Henry de Souza graduated from University College Dublin, practised in the UK training system for several years, and moved to Ontario in 1966. He is an assistant clinical professor at the University of Western Ontario and practises internal medicine at the Hotel Dieu, Niagara, and at St. Catherines General Hospital. de Souza is well-known for his sharp clinical acumen, his depth of knowledge in internal medicine, and his longstanding advocacy of evidence-based medicine. He is a founding member of the Niagara Clinical Teaching and Research Centre, and has made an outstanding contribution to this group. He has held teaching appointments including Dalhousie, Toronto, Queen’s, and UWO and is recognized as a gifted educator by peers and students alike. de Souza has been described as “very caring to patients, going out of his way to lend support to his patients, a real ‘old guard’ doctor with great dedication to his profession.” Donald Steeves (Nominated by Dr. M. Raju and Dr. P. Bergin) Dr. Donald Steeves, a third-generation physician, graduated from Dalhousie Medical School in 1969. After four years of general practice in Liverpool, Nova Scotia, he returned to Dalhousie to complete internal medicine training. For the past twenty-six years, he has enjoyed a busy and diverse referral practice in Charlottetown, PEI. Depending on local availability of medical specialists, he has had to adapt his practice to reflect the needs of community and hospital. Steeves has chaired P & T committees and a number of hospital and provincial medical committees dealing with intensive care, cardiovascular protocols and registries, and motor vehicle certification. Early on he was involved with the Dalhousie medical internship program, and in the past few years has been involved in cardiovascular trial research. Steeves has a special interest in difficult diagnostic and management problems in clinical medicine. “His hallmark is an incredible thoroughness and attention to detail, complemented by a superb knowledge base and clinical acumen.” Canadian Journal of General Internal Medicine Award Winners 2006 Dr. David Sackett Senior Investigator Award 2006 New Investigator Award The Canadian Society of Internal Medicine congratulates Dr. Deborah Cook of Hamilton for winning the 2006 Dr. David Sackett Senior Investigator Award. The Canadian Society of Internal Medicine congratulates Dr. David Juurlink of Toronto for winning the 2006 CSIM New Investigator Award. Deborah Cook Dr. Deborah Cook completed undergraduate and postgraduate IM training at McMaster Medical School, going on to obtain a Critical Care Fellowship from Stanford University (1991). She returned to take an MSc (Design, Measurement and Evaluation Program), under the mentorship of Drs. David Sackett and Gordon Guyatt. Currently, Cook practices intensive care medicine at St. Joseph’s Hospital in Hamilton, Ontario. She is professor of Medicine, Clinical Epidemiology and Biostatistics at McMaster University, and academic chair of Critical Care Medicine at St Joseph’s Healthcare and McMaster University. Cook is involved in multimethod multidisciplinary research, translating knowledge into practice to prevent morbidity and mortality, particularly in the critically ill. She is a Canada research chair with a range of interests including life-support technology, end-of-life choices, risk factors for critical illness, prevention of ICU-acquired illness, research ethics, and methodology. She has published over 500 articles in the medical literature. In addition, Cook has trained and supervised numerous research trainees in Canada and elsewhere. Recently, she was awarded the President’s Educational Leadership Award at McMaster University for her dedication to mentoring students and junior faculty, striving to make them successful independent clinician-scientists. The Royal College of Physicians of Ontario recently honoured her with the Council Award for outstanding achievement in eight roles as a medical expert, health advocate, communicator, collaborator, scientist, learner, manager, and humanist. The Senior Investigator Award was supported by an educational grant from Merck Frosst/Schering Pharmaceuticals. Canadian Journal of General Internal Medicine David Juurlink Dr. David Juurlink is a staff physician in the Division of General Internal Medicine and Head of the Division of Clinical Pharmacology and Toxicology at Sunnybrook Health Sciences Centre. He is also a medical toxicologist at the Ontario Regional Poison Information Centre at the Hospital for Sick Children. Juurlink received degrees in pharmacy and medicine from Dalhousie University in Halifax, and completed postgraduate training in internal medicine, clinical pharmacology, and clinical toxicology, as well as a PhD in clinical epidemiology from the University of Toronto. His primary area of research is drug safety, with a particular interest in the clinical consequences of drug interactions. The New Investigator Award was supported by an educational grant from Merck Frosst/Schering Pharmaceuticals. Volume 1, Issue 1, 2006 29 Welcome to New Members CSIM welcomes the following new members of the society: Residents Dr. Maher Naguib Mehany AbdelMalak Dr. Abdulgani Ab. M. Abonowara Dr. Arlal Abu Sanad Dr. Hussein Abdurrahman H. Abujrad Dr. Ahmed Ahmed AlJohany Dr. Shadi Akhtari Dr. Majid Al Madi Dr. Mohammed Al Mehthel Dr. Abdullah Saeed M. Al Zahrani Dr. Muhannad Dhia Judy Al-Jaber Dr. Ali Almusawi Dr. Turki Alwasaidi Dr. Mark Bailey Dr. Claire Barber Dr. Karen Bensoussan Dr. James Bin Dr. Silvana Bolano del Vecchio Dr. Christine Bourgault Dr. Loree Lynn Boyle Dr. Angèle Brabant Dr. Melanie Brown Dr. Savannah Cardew Dr. Rajendra Carmona Dr. Sean Carr Dr. Jean-Christophe Carvalho Dr. Lana Castellucci Dr. Ronnie Chan Dr. Vicky Chan Dr. Ramandeep Kaur Chawla Dr. Brian Jang Hwan Cho Dr. Edward Clark Dr. Vikram Ravindran Comondore Dr. Stephen Congly Dr. Joslyn Conley Dr. Cecilia Costiniuk Dr. Marie-Nöelle Côté Dr. Beth-Ann Cummings Dr. Konstadina Darsaklis Dr. Sharmistha Das Dr. Nathan John Degenhart Dr. Gianni Ercole D’Egidio Dr. Melanie Di Quinzio Dr. Maya Doumit Dr. Vera Dounaevskaia Dr. Malak El-Rayes Dr. Shane English Dr. Leilawi Casilda Famorla Dr. Tabassum Firoz 30 Volume 1, Issue 1, 2006 Dr. Andrew Grant Dr. Alison Graver Dr. Michelle Nora Grinman Dr. Leena Hajra Dr. Adnan Kazi Hameed Dr. Douglas Hayami Dr. Sari Michelle Herman Dr. Jeremy Ho Dr. Jenny Mei-Yeo Ho Dr. Sarah Anne Ingber Dr. Sahar Jameel Iqbal Dr. Tariq Iqbal Dr. Akshai Mohan Iyengar Dr. David Jones Dr. Nikola July Dr. Jamil Kanji Dr. Anmol S. Kapoor Dr. Mary-Margaret Keating Dr. Zahira Khalid Dr. Omar H. Kify Dr. Joseph Kim Dr. Hin Hin Ko Dr. Karen Kin-Yue Koo Dr. Dayantha Kottachchi Dr. Christian Kraeker Dr. Darin S. Krygier Dr. Puja Kumar Dr. Kwadwo Kyeremanteng Dr. Patrick Labbé Dr. Christopher Labos Dr. Martin Labuda Dr. Marie-Josée Lacelle Dr. Emily Lai Dr. Marc-André Leclair Dr. Linda May Lee Dr. Christie Lee Dr. Kar Cheong Lee Dr. Edward Lee Dr. Anson Li Dr. Joy Jiah-yin Liao Dr. Theresa Liu Dr. Marie-Eve Lizotte Dr. Khuê Ly Dr. Ling Ling Ma Dr. Jimmy Machaalany Dr. Mark Anthony MacMillan Dr. Nadia Malakieh Dr. Samir Malhotra Dr. Laura Susanne Marcotte Dr. Heather McLeod Dr. Sarah Margaret McMullen Dr. Brandon Meyers Dr. Nataliya Milman Dr. Luc Moleski Dr. Ibrahim Mohammad Momenkhan Dr. Bahareh Motlagh Dr. Sunita Sheila Mulpuru Dr. Anthony Naassan Dr. Jeya Nadarajah Dr. Josiane Nawar Dr. John Neary Dr. Sarah Nelson Dr. Carol Ott Dr. Daniel Ovakim Dr. Scott Owen Dr. Tripti Papneja Dr. Vishal Patel Dr. Viktoria Pavlova Dr. Lysanne Pelletier Dr. Patricia Peticca Dr. Aimee June Peuhkuri Dr. Sanaz Piran Dr. Sean Pritchett Dr. Raffaela Profiti Dr. Marco Puglia Dr. Amira Rana Dr. Daniel Renouf Dr. Elizabeth Rhynold Dr. Jennifer Ringrose Dr. Irwindeep Sandhu Dr. Yoko Saschin Schreiber Dr. Christopher Sharpe Dr. Dan Slabu Dr. Daniel Smyth Dr. Howard Song Dr. Naomi Spitale Dr. Srilata Kavita Sridhar Dr. Jocelyn Srigley Dr. Kristoffor Britton Stewart Dr. Ganesh Subramanian Dr. Ian Sutcliffe Dr. Vincent Channing Tam Dr. Penny Tam Dr. Karthik Tennankore Dr. Subarna Thirugnanam Dr. Karen To Dr. Vanessa Tremblay Dr. Hariharan Vasan Dr. Diane Villanyi Dr. Revital Wanono Dr. Thomas Warren Dr. Lay Lay Win Dr. Camilla Wong Dr. Radhika Yelamanchili Dr. Yong Dong You Dr. Aaron Young Dr. Oriana Hoi Yun Yu Dr. Jane Yuan Dr. Derek Yung Full Members Dr. Paul Clavette Dr. Avtar Singh Dhillon Dr. Claudio Di Prizito Dr. Kempe Gowda Dr. Geneviève Grégoire Dr. Jayna Holroyd-Leduc Dr. Zafar Iqbal Dr. Parul Khanna Dr. Michelle Mohammed Dr. Donald Moore Dr. Jill Newstead-Angel Dr. Greg Peters Dr. Anna Purdy Dr. Irina Sanatani Dr. Walter F. Schlech III Dr. Lawrence Schnurr Dr. Ahmad Raed Tarakji Dr. Shahzad Zia Associate Member Dr. Manisha Khurana CSIM Membership Membership as of September 14, 2006: Full members Residents Associate members Seniors/retired members Honorary members Medical students Corporate members TOTAL 564 210 2 79 3 2 4 864 Canadian Journal of General Internal Medicine A Profile of the Canadian Society of Internal Medicine By Domenica Utano What Is the CSIM? The Canadian Society of Internal Medicine (CSIM) is the non-profit professional society that represents the interests of specialists in general internal medicine in Canada. Our mission is “to represent, promote and provide leadership for the discipline of general internal medicine across Canada, in terms of clinical practice, education and research.” What Are CSIM’S Goals? Practice: also for sub-specialists in varying fields. Residents are encouraged to attend the ASM, and a special program is designed just for them. 1. To provide the best care by promoting an evidence-based approach to the practice of general internal medicine. 2. To encourage residents to pursue careers in general internal medicine. 3. To promote the use of information technology by general internists to enhance patient care. 4. To advocate fair compensation for services provided by general internists. Education: 1. To develop a national definition of the roles and competencies of the general internist. 2. To plan the residency curriculum in conjunction with the RCPSC Specialty Committee in Internal Medicine. 3. To assist general internists in their professional development through effective, accessible, needs-based CME/CPD. Research: 1. To facilitate a coordinated national approach to research in general internal medicine. 2. To support an endowment fund for research in general internal medicine. History of the CSIM In 1983, a large group of internists discussed forming an organization that could act on their behalf. The CSIM was incorporated in 1984 with four hundred charter members. The creation of the society was spearheaded by the late Dr. J. Allan Gilbert, who became the CSIM’s first president. A unique feature of the CSIM Council is that there is representation from all geographic regions across Canada. In addition, the CSIM represents general internists from university and community settings. The council is composed of 50 percent academic internists and 50 percent practising in a community setting. The society’s current membership is at an all-time high of 864. The CSIM’s Annual Scientific Meeting (ASM) was previously held within the Royal College’s annual conference. However, in 2001, the CSIM ventured on its own and held its first stand-alone meeting, which was a resounding success. Since then, the ASM has grown significantly both in size and in calibre. The meeting sessions present relevant and useful information, not only for the GIM specialist but Canadian Journal of General Internal Medicine Recent Events GIM Working Group In May 2005, the CSIM was pleased to inform its members about the creation of the Working Group in General Internal Medicine, under the auspices of the Royal College of Physicians. The mandate of this group is to develop GIM training objectives and standards for training programs, as well as developing the concept of core competencies in GIM. The creation of this group marked the first time that general internal medicine had an official voice at the Royal College. GIM Document The society, under the leadership of Dr. Mahesh Raju, directed its attention on one of its most exciting initiatives–the production of its monograph Care-Fully: Defining a Plan for General Internal Medicine in Canada (published in October 2005). One of the goals of this document is to bring attention to the shortage of GIM specialists in Canada, as well as to highlight the crucial role general internists play in the Canadian health care system. This document is in the process of being distributed to many stakeholders such as health ministers, hospital administrators, deans and chairs of medicine, and residency directors, to list but a few. An upcoming goal of the society is to collaborate with such stakeholders to improve the delivery of specialized medical care in Canada, thus ensuring that Canadians continue to receive high-quality care. CSIM Web site The CSIM Web site has been completely revamped over the course of the past two years. The new site, www.csimonline.com, links to hundreds of journals and other useful resources. It also hosts CSIM educational modules and polls that are used to foster a Canadian dialogue about issues pertinent to GIM in Canada. New GIM Journal The most recent event is the launch of this journal—the Canadian Journal of General Internal Medicine. Readers are invited to submit their clinical cases, their research projects, case reports, and commentaries. This is a new communication vehicle, and we encourage readers to use it and to forward submissions to [email protected]. Volume 1, Issue 1, 2006 31 A Profile of the Canadian Society of Internal Medicine Future Directions The CSIM will continue its focus on the promotion of general internal medicine as a sub-specialty through the efforts of the Working Group in GIM. The Care-Fully document will be translated along with a second printing. Efforts will continue in advocating for increased resources to train more general internists and to increase the number of GIM residency training positions. Other new initiatives for the society include creating a dialogue with internal medicine groups elsewhere in the world such as the IMSANZ (Internal Medicine Society of Australia and New Zealand), the SGIM (Society of General Internal Medicine), the ACP (American College of Physicians), and the ASMIQ (Association des spécialistes en medicine interne du Québec). Another new initiative is in the field of health promotion. The CSIM would like to devote some of its energy into promoting health and preventing disease as well as promoting healthy living habits among our own members. After college, Domenica Utano pursued a career in banking. She switched careers ten years ago and has happily been with the Royal College ever since. Domenica is currently the association manager of the Canadian Society of Internal Medicine and of the Canadian Society for Clinical Investigation. She has been married for eight years, and her proudest accomplishment is being the mother of an active, beautiful little boy. Bibliography 1. Associated Medical Services, Medical Specialty Societies of Canada. Toronto: The Boston Mills Press, 1991. 2. Canadian Society of Internal Medicine, The General Internist. 2005–2006. Société canadienne de médecine interne La société La Société canadienne de médecine interne (SCMI) est l’association professionnelle à but non lucratif qui représente les intérêts des internistes généralistes au Canada. La société a pour mission « de représenter, promouvoir et diriger la spécialité de la médecine interne générale dans tout le Canada, sur les plans de la pratique clinique, de l’éducation et de la recherche. » Objectifs Pratique clinique : 1. Favoriser la prestation de soins conforme aux normes plus élevées par l’exercice de la médecine factuelle en médecine interne. 2. Encourager les diplômés en médecine à poursuivre une carrière en médecine générale interne. 3. Promouvoir l’utilisation des technologies de l’information par les internistes généralistes pour favoriser la prestation de soins. 4. Défendre la cause de la rétribution équitable des services fournis par les internistes généralistes. Éducation : 1. Élaborer une définition, applicable à l’échelle nationale, des rôles et compétences de l’interniste généraliste. 2. Concevoir le programme d’études de résidence de concert avec le Comité de la spécialité en médecine interne du CRMCC. 3. Favoriser le perfectionnement professionnel des internistes généralistes par un programme d’ÉMC / DPC judicieux, accessible et adapté aux besoins. Recherche : 1. Favoriser une approche nationale coordonnée pour la recherche en médecine interne générale. 2. Établir une fondation parrainée pour soutenir la recherche en médecine interne générale. 32 Volume 1, Issue 1, 2006 Canadian Journal of General Internal Medicine Canadian Society of Internal Medicine Annual Scientific Meeting Hyatt Regency, Calgary, Alberta • November 1–4, 2006 TUESDAY, OCTOBER 31 1730–2030 CSIM Executive Committee Meeting (closed) (over dinner) WEDNESDAY, NOVEMBER 1 0800–1030 1030–1200 1130–1330 1300–1430 1445–1500 1500–1730 1730–1800 1800–1900 1900–2100 1900–2100 CSIM Council Meeting (closed) (over breakfast) CSIM Annual Meeting and Education Committees Meeting (closed) Lunch for all CSIM Council and Committee Members (closed) CSIM Membership and Education Committees Meeting (closed) WELCOME ADDRESS Dr. Donald Echenberg, CSIM President, Sherbrooke Dr. Robert Herman, Chair 2006 Annual Meeting Committee, Calgary SHORT SNAPPERS 1. Perioperative AMI–Dr. Akbar Panju, Hamilton 2. Optimal Asthma Management–Dr. Tony Bai, Vancouver 3. Incretins–TBA 4. New Insulins–TBA 5. New Method for Rapid HIV Testing–Dr. Donna Sweet, Wichita WELCOME RECEPTION ACP SYMPOSIUM: The Top Clinical Trials from 2005/06–Dr. Brendan MacDougall, Winnipeg This symposium is sponsored by the American College of Physicians (Western Chapter) WELCOME DINNER (open to all) GIM Working Group and GIM Program Directors Meeting (closed) (over dinner) THURSDAY, NOVEMBER 2 0630–0700 0700–0800 0630–0745 0800–0830 0845–1130 BREAKFAST BREAKFAST SYMPOSIUM: Is Resistant Hypertension Really Resistant?–Dr. Peter Hamilton, Edmonton Including Highlights from the 2007 CHEP Recommendations—Dr. Nadia Khan, Vancouver This symposium is sponsored by Bayer Canada Research/Awards Committee Meeting (closed) (over breakfast) Keynote Address: New Investigator Award Winner 2006 Studying Drug Safety in the Real World –Dr. David Juurlink, Toronto The NIA is supported by an educational grant from Merck Frosst/Schering Pharmaceuticals CONCURRENT WORKSHOPS (select three) (Repeating three times: 0845–0930, 0945–1030, 1045–1130) 1. Acid Base Disorders–Dr. Irene Ma, Vancouver 2. Medical Simulation: Are you Up to Date as You Think?–Dr. Jean Setrakian, Montreal 3. ECGs (Challenging Tracings)–Dr. Dean Traboulsi, Calgary 4. CV Line Insertion–Dr. André Ferland, Calgary) 5. Endocrine Emergencies–Dr. John Dornan, Saint John 6. Dermatology for Internists–Dr. Richard Haber, Calgary 7. Medical Education: Bedside Teaching Settings Standards–Dr. Iain Mackie, Vancouver 8. Improving Presentation Skills–Dr. Louise Pilote, Montreal 9. Drugs in Pregnancy–Drs. Dave Sam, Toronto, and Paul Gibson, Calgary 10. Work up of Vasculitis–Dr. Elaine Yachyshyn, Edmonton Canadian Journal of General Internal Medicine Volume 1, Issue 1, 2006 33 Canadian Society of Internal Medicine Annual Scientific Meeting 1145–1300 1300–1330 1345–1500 1500–1600 1600–1700 1700–1800 1800–1900 1900–2100 1900–2100 LUNCHEON SYMPOSIUM: Type 2 Diabetes in Canada–Where Are We Going?–Dr. Irene Hramiak, London This symposium is sponsored by Merck Frosst Canada Ltd. Keynote Address: Dr. David Sackett Senior Investigator Award Winner 2006 Changing Clinician Behaviour to Implement Evidence in Practice –Dr. Deborah Cook, Hamilton The SIA is supported by an educational grant from Merck Frosst/Schering Pharmaceuticals Oral Research Session 1. Pneumococcal Vaccination and Risk of Myocardial Infarction –Dr. Jean-Christophe Carvalho, Sherbrooke 2. A National Survey of Canadian Surgeons: Current use and Future Trial Evaluation of Perioperative Acetyl-Salicylic Acid (ASA) –Dr. Rajesh Hiralal, Hamilton 3. Intensity of Warfarin Therapy and Use of Interacting Medications in a Long-Term Care –Dr. Bahareh Motlagh, Burlington 4. Systematic Review of Screening Questionnaires for Type 2 Diabetes –Dr. Kara Nerenberg, Hamilton 5. AntimicrobalsAntimicrobials for Right-Sided Endocarditis in Intravenous Drug Users: A Systematic Review –Dr. Derek Yung, Toronto ACP Annual General Meeting Free time Wine and Cheese and Viewing of Research Posters CONCURRENT SYMPOSIA (Select one) 1. Pump Failure: Prevention, Prolongation and Perseverance –Drs. Malcolm Arnold, London, and Elizabeth Mann, Halifax This symposium is sponsored by Sanofi-Aventis 2. Stroke Prevention: Action for Global Protection of the Brain This symposium is sponsored by Pfizer Canada Inc. DINNER (open to all) Medical Education Research Interest Group (over dinner) FRIDAY, NOVEMBER 3 0630–0700 0700–0800 0800–0830 0845–1130 1145–1300 1145–1300 34 BREAKFAST BREAKFAST SYMPOSIUM: Peripheral Arterial Disease: Emerging Evidence, Establishing Risks and New Directions This symposium is sponsored by Sanofi-Aventis and Bristol Myers Squibb Edwards Lecture/ACP Lecture–Does It Matter How You Lower Blood Sugars in People with Type 2 Diabetes? –Dr. Jeff Johnson, Edmonton CONCURRENT WORKSHOPS (Select three) (Repeating three times: 0845–0930, 0945–1030, 1045–1130) 1. ECGs (Arrhythmias)—Dr. Sean Connors, St. John’sTBA 2. Chronic Kidney Disease: Management Issues for the General Internist—Dr. J.W. Barton, Saskatoon 3. Liver Disease in Pregnancy—Dr. Rshmi Khurana, Edmonton 4. Management of Valvular Heart Disease in the Perioperative Period—Dr. William Ghali, CalgaryTBA 5. Searching the Medical Literature—Dr. Sharon Straus, Calgary 6. Approach to Management of Skin Ulceration—Dr. Jack Toole, Winnipeg 7. Arthrocentesis/Joint Injection—Dr. Suzanne Morin, Montreal 8. Advances in the Diagnosis and Management of Substance Use Disorders—Dr. Mark Lysyshyn, Vancouver 9. Interpretation of X-ray and CT of the Chest—Dr. John H. MacGregor, CalgaryTBA 10. Emerging Pathogens in 2006—Donna Sweet, Wichita LUNCHEON SYMPOSIUM: Emerging Strategies for the Management of Renal Failure in the Diabetic Patient –Drs. Ellen Burgess, Calgary, and Joseph Zupnik, Toronto This symposium is sponsored by Sanofi-Aventis and Bristol Myers Squibb Peri-Operative Research Interest Group (over lunch) Volume 1, Issue 1, 2006 Canadian Journal of General Internal Medicine Canadian Society of Internal Medicine Annual Scientific Meeting@RRH 1315–1345 Keynote Address: CSIM/Royal College Osler Lecture and Discussion –Dr. John Hoey, Ottawa 1345–1500 Oral Research Session 1. The Impact of Statins in the Perioperative Period: A Systematic Review of Controlled Studies –Dr. Anmol Kapoor, Edmonto 2. Clinical Decision Support Tools for Disease Management in Osteoporosis: A Systematic Review of the Literature –Ms. Monika Kastner, Toronto 3. Non-Invasive Cardiac Monitoring for Detecting New Atrial Fibrillation Following Acute Ischemic Stroke: A Systematic Review –Dr. Joy Liao, Hamilton 4. Cardiorenal Syndrome in Patients with Complex Congenital Heart Disease –Dr. Sanaz Piran, Oakville 5. Incidence, Clinical Patterns and Outcomes of Gastrointestinal Bleeding in Adult Patients Receiving Allogeneic Hematopoietic Stem Cell Transplantation for Acute Leukemia or Myelodysplastic Syndrome –Dr. Mark Puglia, Hamilton CSIM Annual General Meeting (CSIM members only) Free time Wine and Cheese and Viewing of Research Posters Working Group in GIM-Nucleus Group (closed) (over dinner) CONCURRENT SYMPOSIA (Select one) 1. Diabetes: A Cardiac Condition Manifesting as Hyperglycemia –Dr. David Bell, Birmingham This symposium is sponsored by GlaxoSmithKline 2. The Strongest Link: Hot Topics in Atrial Fibrillation–A Game That Explores the Evidence – Dr. Derek Exner, Calgary This symposium is sponsored by Merck Frosst Canada Ltd. DINNER (open to all) 1500–1600 1600–1700 1700–1800 1730–2130 1800–1900 1900–2100 SATURDAY, NOVEMBER 4 0630–0700 0700–0800 0630–0800 0800–0900 0900–1000 1000–1145 BREAKFAST BREAKFAST SYMPOSIUM: From Diagnosis to Cirrhosis—Update on HCV – Dr. Alnoor Ramji, Vancouver This symposium is sponsored by Hoffmann-La Roche Ltd. Maternal Health Research Interest Group (over breakfast) ROUNDTABLE DISCUSSION General Internal Medicine: Objectives of Training/Standards of Accreditation –Drs. Donna Sweet, Wichita, Sharon Card, Saskatoon, Barry Kassen, Vancouver, and Hector Baillie, Nanaimo SHORT SNAPPERS 1. Dual Antiplatelet Blockage in CV Disease—Dr. Cathy Kells, Halifax Dual RAAS Inhibition—Dr. Norman Campbell, Calgary 2. 3. Four Drug Interactions Internists Should Fear—Dr. Dave Juurlink, Toronto 4. Optimal Investigation and Management of Urinary Tract Infections—Dr. Gary Victor, Ottawa CONCURRENT WORKSHOPS (Select two) (Repeats twice: 1000–1045, 1100–1145) 1. Electrolyte Abnormalities—Dr. Kevin McLaughlin, Calgary 2. Exercise Stress Testing—Dr. Mark Rabinovitch, Montreal 3. Haematologic Emergencies—Dr. Don Houston, Winnipeg 4. Pregnancy in Patients with Valvular and Other Hearth Disease—Dr. Cathy Kells, Halifax 5. Perioperative Management of Diabetes Mellitus—Drs. Anne PausJenssen and Sharon Card, Saskatoon Canadian Journal of General Internal Medicine Volume 1, Issue 1, 2006 35 Canadian Society of Internal Medicine Annual Scientific Meeting 6. 1000–1315 1200–1315 1330–1530 1530–1730 1730–1800 1800–1830 1830–2300 Some Common Diagnostic Tests: Is There More Than Just the Tea Leaves at the Bottom of the Cup? –Dr. Jim Nishikawa, Ottawa 7. Mentoring Through Effective Lifestyle Change: The 3-Minute Clinical Intervention (2 hours) –Dr. Jacques Bédard, Sherbrooke 8. Interpretation of PFTs –Dr. Lisa PausJenssen, Saskatoon CAREERS IN GENERAL INTERNAL MEDICINE: A Program for Residents (over lunch) – Drs. Brian O’Brien, Edmonton, Hugo Bertozzi, Grand Prairie, and Brian Cummings, C.A., Kitchener LUNCHEON SYMPOSIUM: Clinical Implications of Guideline Changes in Lipid Management –Dr. Jacques Genest, Montreal This symposium is sponsored by Merck Frosst/Schering Pharmaceuticals Ted Giles Clinical Vignettes 2006 1. Primary Cerebral Lymphoma in an Immunosuppressed Patient with Systemic Lupus Erythematosus –Dr. Linda Lee, Toronto 2. Be Aware of Your Well –Dr. Marc-André Leclair, Sherbrooke 3. Respiratory Distress, Pulmonary Infiltrates, and Eosinophilia –Dr. Christie Lee, Toronto 4. Cryoglobulinemia Presenting as Pseudothrombocytosis –Dr. Adnan Hameed, Winnipeg 5. Recurrent Acute Rheumatic Fever –Dr. Subarna Thirugnanam, Toronto 6. Severe Hypokalemia in a Young Woman with Sjögren’s Syndrome –Dr. Ted Clarke, Montreal 7. A Gem of a Rash –Dr. Paul Bunce, Toronto 8. An Unusual Pleural Effusion –Dr. Marie-Josée Lacelle, Sherbrooke 9. A Case of Splitting Headache –Dr. Mark Kotowycz, Hamilton 10. The Mystery Man with Jaundice–The Diagnosis Lies in the History –Dr. Leena Hajra, Toronto Free time Reception PHYSICIAN WELLNESS–Drs. Jane Lemaire, Calgary, and Bert Govig, Amos 5th Annual CSIM Dinner and Award Presentations SUNDAY, NOVEMBER 5 0800–0930 Annual Meeting Committee Meeting (closed) (over breakfast) Our sincere thanks to the 2006 CSIM Annual Meeting Committee See you at the next CSIM Annual Scientific Meetings October 10–13, 2007 at the Delta in St. John’s, Newfoundland October 15–18, 2008 at the Delta Centre-Ville, Montreal, Quebec 36 Volume 1, Issue 1, 2006 Notice of CSIM Annual Meeting of Members Pursuant to Articles 3.01 and 3.03 of the bylaws, notice is hereby given that the Annual Meeting of Members of the Canadian Society of Internal Medicine will be held in Calgary, Alberta, during the 2006 Annual Scientific Meeting. The AGM is scheduled to take place Friday, November 3, at 1500 hours. Note: Changes to the bylaws will be presented. To review a copy of last year’s AGM minutes, please visit the CSIM Web site at www.csimonline.com or contact the CSIM Office at [email protected]. Canadian Journal of General Internal Medicine Speakers J. Malcolm Arnold, London, Ontario Tony Bai, Vancouver, British Columbia Hector Baillie, Nanaimo, British Columbia Jim Barton, Saskatoon, Saskatchewan Jacques Bédard, Sherbrooke, Quebec David S.H. Bell, Birmingham, Alabama Hugo Bertozzi, Grand Prairie, Alberta Paul Bunce, Toronto, Ontario Ellen Burgess, Calgary, Alberta Norman Campbell, Calgary, Alberta Sharon E. Card, Saskatoon, Saskatchewan Jean-Christophe Carvalho, Sherbrooke, Quebec Ted Clarke, Montreal, Quebec Deborah Cook, Hamilton, Ontario Brian E. Cummings, Kitchener, Ontario John Dorman, Saint John, New Brunswick Derek Exner, Calgary, Alberta André Ferland, Calgary, Alberta Jacques Genest, Montreal, Quebec William Ghali, Calgary, Alberta Paul Gibson, Calgary, Alberta Bert Govig, Amos, Quebec Richard Haber, Calgary, Alberta Leena Hajra, Toronto, Ontario Adnan Hameed, Winnipeg, Manitoba Peter Hamilton, Edmonton, Alberta Rajesh Hiralal, Hamilton, Ontario 38 Volume 1, Issue 1, 2006 Sponsors John Hoey, Perth, Ontario Donald S. Houston, Winnipeg, Manitoba Irene M. Hramiak, London, Ontario Jeffrey A. Johnson, Edmonton, Alberta David Juurlink, Toronto, Ontario Nadia Kahn, Vancouver, British Columbia Anmol Kapoor, Edmonton, Alberta Barry Kassen, Vancouver, British Columbia Monika Kastner, Toronto, Ontario Catherine M. Kells, Halifax, Nova Scotia Rshmi Khurana, Edmonton, Alberta Mark Kotowycz, Hamilton, Ontario Marie-Josée Lacelle, Sherbrooke, Quebec Marc-André Leclair, Sherbrooke, Quebec Christie Lee, Toronto, Ontario Linda Lee, Toronto, Ontario Jane Lemaire, Calgary, Alberta Joy Liao, Hamilton, Ontario Mark Lysyshyn, Vancouver, British Columbia Irene Ma, Vancouver, British Columbia Brendan MacDougall, Winnipeg, Manitoba John MacGregor, Calgary, Alberta Iain Mackie, Vancouver, British Columbia Elizabeth Mann, Halifax, Nova Scotia Kevin McLaughlin, Calgary, Alberta Suzanne Morin, Montreal, Quebec Bahareh Motlagh, Burlington, Ontario Kara Nerenberg, Hamilton, Ontario Jim Nishikawa, Ottawa, Ontario Brian D. O’Brien, Edmonton, Alberta Akbar Panju, Hamilton, ON Anne PausJenssen, Saskatoon, SK Lisa PausJenssen, Saskatoon, SK Louise Pilote, Montreal, QC Sanaz Piran, Oakville, Ontario Mark Puglia, Hamilton, Ontario Mark Rabinovitch, Côte Saint-Luc, Quebec Alnoor Ramji, Vancouver, British Columbia David Sam, Toronto, ON Jean Setrakian, Montreal, QC Sharon Straus, Calgary, AB Donna Sweet, Wichita, KS Subarna Thirugnanam, Toronto, Ontario Jack W.P. Toole, Winnipeg, Manitoba Dean Traboulsi, Calgary, Alberta Gary Victor, Ottawa, Ontario Elaine Yacyshyn, Edmonton, Alberta Derek Yung, Toronto, Ontario Joseph Zupnik, Toronto, Ontario The CSIM gratefully acknowledges support of our scientific program by educational grants from the following companies: AstraZeneca Bayer Healthcare Boehringer Ingelheim Bristol-Myers Squibb GlaxoSmithKline Hoffman-La Roche Ltd Merck Frosst Merck Frosst/Schering Novartis Pfizer Canada Inc. Sanofi-Aventis Canadian Journal of General Internal Medicine Instructions to Authors he Canadian Journal of General Internal Medicine publishes concise papers, which are subject to peer review. The Journal considers articles of original research, reviews, scholarly addresses, case reports, book reviews, historical interest, clinical tips, guidelines, letters to the editor, and so on. Requirements are in accordance with “Uniform requirements for manuscripts submitted to biomedical journals” (http://www.icmje.org). The editorial policies of the journal are in line with those of the Council of Science Editors (http://www. councilscience editors.org/services/draft_ approved.cfm). Authors must disclose any commercial interest in the subject of study and the source of any support. A covering letter should state that the work is original and should include the address for correspondence, as well as the phone and fax numbers and e-mail address to ensure rapid processing. After acceptance, the author(s) must sign a copyright transfer agreement. The Journal reserves the right to edit manuscripts to ensure conformity with the Journal’s style. Such editing will not affect the scientific content. T Manuscript Preparation Manuscripts should be double-spaced and approximately four to six pages long (800 to 1,500 words). The manuscript must be sent by e-mail attachment (Word or Rich Text Format only). An abstract of up to 150 words should be provided, and a statement that the study was approved by the relevant research ethics board should be included, where relevant. The lead author should also provide a brief bio sketch and high-resolution photo of himself or herself (see details regarding illustrations below). References References should be numbered consecutively in the text by superscript numerals. Corresponding references should be listed at the end of the text. Exhaustive lists of references are not encouraged. Unpublished sources such as personal communications should be cited within the text and not included in the reference list. The sequence for journal references should be as follows: author(s); title of paper; journal name abbreviated as in the Index Medicus; year of publication, volume number, first and last page numbers. When there are Canadian Journal of General Internal Medicine more than three authors, shorten to three and add “et al.” 1. Col NF, Eckman MH, Karas RH, et al. Patient specific decisions about hormone replacement therapy in postmenopausal women. JAMA 1997;277:1140-7. The sequence for chapters of a book should be as follows: author(s) of chapter, chapter title, author(s) of book, book title, edition, place of publication, publisher, year of publication, page numbers. 1. Galloway AC, Colvin SB, Grossi EA, et al. Acquired heart disease. In: Schwartz SI, Shires GT, Spencer FC, eds. Principles of Surgery, 6th edition. New York: McGrawHill; 1994:845-99. Tables and illustrations Each table should be typed on a separate page, and should have a legend at the top indicating the information contained. Illustrations may be sent electronically as a TIFF or JPEG file on a disk or CD. Do not embed images, etc., in text files. Note: Figure reproduction cannot improve on the quality of the originals. Numbers, units, and abbreviations Measurements are to be metric. In scientific text, physical quantities and units of time should be expressed in numerals, for example, 2 kg, 6 mmol, 5 hours, 4˚C. Use only standard abbreviations, and avoid using abbreviations in the title. Define all abbreviations on their first mention. Permissions Written permission must be obtained for material that has been published in copyrighted material; this includes tables, figures, and quoted text that exceeds 150 words. Signed patient release forms are required for photographs of identifiable persons. A copy of all permissions and patient release forms must accompany the manuscript. Proofs Proofs for correction will be sent to authors by e-mail as a Word file. Authors are asked to fax or e-mail corrections back to the publisher within 72 hours. Unless otherwise indicated by the author, manuscripts will be published as sent. Please submit manuscripts to: Dr. Hector Baillie [email protected] Only electronic submissions will be accepted. Volume 1, Issue 1, 2006 41 D I S P L AY C L A S S I F I E D S Employment To inquire about rates or to submit material to advertise in CJGIM please contact Brenda Robinson at Andrew John Publishing: 905.628.4309 or brobinson@andrewjohn publishing.com. Subject to availability. Book early! GENERAL INTERNIST Stanton Territorial Health Authority has an opening for a General Internist to practice in Yellowknife, the capital of the NWT with almost 20,000 residents offering a unique blend of adventure in a modern environment. The work entails a catchment population of 50,000 with travel clinics throughout the Northwest Territories and in the Kitikmeot Region of Nunavut. THE BENEFITS: Working within a very strong collaborative network of dynamic and highly skilled Family Practitioners and Nurses, the Physician Specialists are employed on an alternative payment contract basis that is comparative to any Canadian region with no overhead costs. These contracts provide a variety of employment benefits and retention incentives as well as a very competitive salary, removal package, recruitment and retention bonuses, at least 10 days of paid CME, excellent leave entitlements and northern allowances. Practice includes referral clinical practice, along with travel to the Arctic and sub-Arctic communities. The call requirement for this position is one in four. For more information, please contact: Angela Tucker, Physician Services Officer Telephone: (867) 669-3149 Toll Free: (867) 389-3149 Cell: (867) 445-8714 Website: www.yellowknife-physicians.ca Email: [email protected] 46 Volume 1, Issue 1, 2006 HEALTH COMMUNITIES, HEALTHY ISLAND PEOPLE, SEAMLESS SERVICE GENERAL INTERNIST The Department of internal medicine at Campbell River & District General Hospital in Campbell River, BC, Canada is seeking an Internist to join our group. We have excellent specialist backup and strong working relationships amongst our consultants, our GP colleagues, and ourselves. Opportunities exist to teach in the UBC post grad and undergraduate programs as well as collaborative research. Additionally involvement with the VIHA Department of Medicine as a whole including rounds is available. Remuneration is fee-for-service (approximately $250,000 annually). May be eligible for additional remuneration including retention premium (7.14%), retention flat fee sum ($6242 paid quarterly), recruitment incentive ($10,000), and relocation costs. Candidates must be certified by the Royal College of Physicians & Surgeons Canada and be eligible for licensure in British Columbia. For a community profile go to www.campbellrivertourism.com. If interested please contact Renee Shimla, Medical Administration VIHA, via Email at [email protected] or telephone at 250-334-5451 or facsimile at 250-334-5468. GENERAL INTERNAL MEDICINE Dalhousie University/ Capital District Health Authority Halifax, Nova Scotia The Division of General Internal Medicine, Department of Medicine, Dalhousie University/ Capital District Health Authority has immediate openings for full-time general internists at the QEII Health Sciences Centre in Halifax. The successful applicants will participate in the provision of patient care in the setting of medical teaching units and ambulatory care with medical students and residents in internal medicine and other programs. Full-time members are expected to develop and/or participate in clinical or educational research. The Department offers strong research support personnel and mentorship. The Department has an attractive alternate funding plan. The Division members are a collegial, cooperative group. We have strong outpatient resources, especially in hypertension, and work closely with advanced practice nurses. Halifax is a vibrant city with diverse cultural, artistic and sports activities. We value quality of life. Requirements include a Canadian fellowship in Internal Medicine or equivalent and eligibility for a license in Nova Scotia. All qualified candidates are encouraged to apply; however, Canadians and permanent residents will be given priority. Dalhousie University is an Employment Equity/Affirmative Action Employer. The University encourages applications from qualified Aboriginal Peoples, persons with disabilities, racially visible persons and women. Please send curriculum vitae and the names and addresses of three referees to: Dr. Elizabeth Mann, Head, Division of General Internal Medicine Dalhousie University/Capital Health Rm. 405 Bethune Bldg., VG Site-QEII HSC 1278 Tower Road, Halifax, NS, B3H 2Y9 Tel: (902) 473-2156 • Fax: (902) 473-8430 [email protected] Applications close 30 days from date of this advertisement. Canadian Journal of General Internal Medicine Canadian Journal of General Internal Medicine Volume 1, Issue 1, 2006 47
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